1. Alemayehu, Abraham B., Hugo Vazquez-Lima, K.J. Gagnon, and Abhik Ghosh, “Tungsten Biscorroles: New Chiral Sandwich Compounds,” Chemistry - A European Journal 22(20), 6914-6920 (2016). (doi:10.1002/chem.201504848) 11.3.1

2. Alexandropoulos, Dimitris, Eleni E. Moushi, Constant Papatriantafyllopoulou, C.M. Beavers, S.J. Teat, A. Tasiopoulos, George Christou, and T.C. Stamatatos, “Cyanate groups in higher oxidation state metal cluster chemistry: Mixed-valence (II/III) Mn16 and Mn18 clusters,” Polyhedron 108, 131-142 (2016). (doi:10.1016/j.poly.2015.11.031) 11.3.1

3. An, Litao, H. Wang, Feng Xu, Xin-Long Wang, Fangming Wang, and Jing Li, “Selective Carbon Dioxide Adsorption by Two Robust Microporous Coordination Polymers,” Inorganic Chemistry 55(24), 12923-1292 (2016). (doi:10.1021/acs.inorgchem.6b02332) 11.3.1

4. Ansari, S.A., Yanqiu Yang, Zhicheng Zhang, K.J. Gagnon, S.J. Teat, Shunzhon Luo, and Linfeng Rao, “Complexation of Lanthanides with Glutaroimide-dioxime: Binding Strength and Coordination Modes,” Inorganic Chemistry 55(3), 1315-1323 (2016). (doi:10.1021/acs.inorgchem.5b02653) 11.3.1

5. Armstrong, Keith C., Stephan Hohloch, Trevor D. Lohrey, Ryan A. Zarkesh, John Arnold, and Mitchell R Anstey, “Control of clustering behavior in anionic cerium(III) corrole complexes: from oligomers to monomers,” Dalton Trans. 45(46), 18653-1866 (2016). (doi:10.1039/C6DT03884K) 11.3.1

6. Aromi, G., C.M. Beavers, J. Sanchez Costa, G. A. Craig, G. Mínguez Espallargas, A. Orera, and O. Roubeau, “Snapshots of a solid-state transformation: coexistence of three phases trapped in one crystal,” Chem. Sci. 7, 2907-2915 (2016). (doi:10.1039/C5SC04287A) 11.3.1

7. Axelson, Jordan C., Miguel I. Gonzalez, Katie R. Meihaus, C.J. Chang, and Jeffrey R. Long, “Synthesis and Characterization of a Tetrapodal NO44- Ligand and Its Transition Metal Complexes,” Inorganic Chemistry 55(15), 7527-7534 (2016). (doi:10.1021/acs.inorgchem.6b00908) 11.3.1

8. Bao, Lipiao, Muqing Chen, Changwan Pan, Takahisa Yamaguchi, T. Kato, Marilyn Olmstead, Alan L. Balch, Takeshi Akasaka, and Xing Lu, “Crystallographic Evidence for Direct Metal‚ÄìMetal Bonding in a Stable Open-Shell La2@Ih-C80 Derivative,” Angewandte Chemie International Edition 55(13), 4242-4246 (2016). (doi:10.1002/anie.201511930) 11.3.1

9. Bao, Lipiao, Muqing Chen, Wangqiang Shen, Changwang Pan, K.B. Ghiassi, Marilyn M. Olmstead, Alan L. Balch, Takeshi Akasaka, and Xing Lu, “Regioselective Synthesis and Crystallographic Characterization of Isoxazoline-Ring-Fused Derivatives of Sc3N@Ih-C80 and C60,” Inorganic Chemistry 55(9), 4075-4077 (2016). (doi:10.1021/acs.inorgchem.6b00631) 11.3.1

10. Barrios, L.A., Carlos Bartual-Murgui, Eugènia Peyrecave-Lleixà, Boris Le Guennic, S.J. Teat, O. Roubeau, and G. Aromi, “Homoleptic versus Heteroleptic Formation of Mononuclear Fe(II) Complexes with Tris-Imine Ligands,” Inorganic Chemistry 55(9), 4110-4116 (2016). (doi:10.1021/acs.inorgchem.5b02058) 11.3.1

11. Bhambra, Avninder S, Mark Edgar, Mark R.J. Elsegood, Lynne Horsburgh, Vladimír Kry≈°tof, Paul D. Lucas, Mariam Mojally, Simon J. Teat, Thomas G. Warwick, George W. Weaver, and Fatemeh Zeinali, “Novel Fluorinated Benzimidazole-Based Scaffolds and their Anticancer Activity in vitro,” Journal of Fluorine Chemistry 188, 99-109 (2016). (doi:10.1016/j.jfluchem.2016.06.009) 11.3.1

12. Boreen, Michael A., Bernard F. Parker, Trevor D. Lohrey, and John Arnold, “A Homoleptic Uranium(III) Tris(aryl) Complex,” Journal of the American Chemical Society 138(49), 15865-1586 (2016). (doi:10.1021/jacs.6b11182) 11.3.1

13. Burzurí, Enrique, Joshua O Island, Ra√∫l Díaz-Torres, Alexandra Fursina, Arántzaz González-Campo, O. Roubeau, S.J. Teat, N√∫ria Aliaga-Alcalde, Eliseo Ruiz, and Herre S. Van der Zant, “Sequential Electron Transport and Vibrational Excitations in an Organic Molecule Coupled to Few-Layer Graphene Electrodes,” ACS Nano 10(2), 2521-2527 (2016). (doi:10.1021/acsnano.5b07382) 11.3.1

14. Cairns, Amy J, Juergen Eckert, Lukasz Wojtas, Matthias Thommes, Dirk Wallacher, Peter A Georgiev, Paul M. Forster, Youssef Belmabkhout, Jacques Ollivier, and Mohamed Eddaoudi, “Gaining Insights on the H2-Sorbent Interactions: Robust soc-MOF Platform as a Case Study,” Chem. Mater. 28(20), 7353-7361 (2016). (doi:10.1021/acs.chemmater.6b02817) 11.3.1

15. Capar, J., J. Zonneveld, Steffen Berg, Johan Isaksson, Kevin J. Gagnon, Kolle E. Thomas, and Abhik Ghosh, “Demetalation of copper undecaarylcorroles: Molecular structures of a free-base undecaarylisocorrole and a gold undecaarylcorrole,” Journal of Inorganic Biochemistry 162, 146-153 (2016). (doi:10.1016/j.jinorgbio.2016.06.026) 11.3.1

16. Catarineu, Noelle R., Alexander Schoedel, Philipp Urban, Maureen B Morla, Christophe Trickett, and Omar M. Yaghi, “Two Principles of Reticular Chemistry Uncovered in a Metal-Organic Framework of Heterotritopic Linkers and Infinite Secondary Building Units,” Journal of the American Chemical Society 138(34), 10826-10829 (2016). (doi:10.1021/jacs.6b07267) 11.3.1

17. Cer√≥n, M.R., M. Izquierdo, N. Alegret, J.R. Valdez, A. Rodríguez-Fortea, M.M. Olmstead, A.L. Balch, J.M. Poblet, and L. Echegoyen, “Reactivity differences of Sc3N@C2n (2n = 68 and 80). Synthesis of the first methanofullerene derivatives of Sc3N@D5h-C80,” Chem. Commun. 52(1), 64-67 (2016). (doi:10.1039/C5CC07416A) 11.3.1

18. Chen, C.-H., L. Abella, M.R. Cer√≥n, M.A. Guerrero-Ayala, A. Rodriguez-Fortea, M.M. Olmstead, X.B. Powers, A.L. Balch, J.M. Poblet, and L. Echegoyen, “A Zigzag Sc2C2 Carbide Cluster inside a [88]Fullerene Cage with One Heptagon, Sc2C2@Cs(hept)-C88: A Kinetically-Trapped Fullerene Formed by C2 Insertion?,” Journal of the American Chemical Society 138(39), 13030-13037 (2016). (doi:10.1021/jacs.6b07912) 11.3.1

19. Clarke, Ryan M., Khatera Hazin, John R. Thompson, Didier Savard, Kathleen Prosser, and T. Storr, “Electronic Structure Description of a Doubly Oxidized Bimetallic Cobalt Complex with Proradical Ligands,” Inorganic Chemistry 55(2), 762-774 (2016). (doi:10.1021/acs.inorgchem.5b02231) 11.3.1

20. Clearfield, A., “Flexible MOFs Under Stress: Pressure and Temperature,” Dalton Trans. 45, 4100-4112 (2016). (doi:10.1039/C5DT03228H) 11.3.1

21. Coletta, M., R. McLellan, J.-M. Cols, K.J. Gagnon, S.J. Teat, E.K. Brechin, and S.J. Dalgarno, “Investigations into cluster formation with alkyl-tethered bis-calix[4]arenes,” Supramolecular Chemistry 28, 557-566 (2016). (doi:10.1080/10610278.2015.1136412) 11.3.1

22. Coletta, Marco, Ross McLellan, A. Waddington, Sergio Sanz, Kevin J Gagnon, Simon Teat, Euan K Brechin, and Scott Dalgarno, “Core expansion of bis-calix[4]arene-supported clusters,” Chem. Commun. 52(99), 14246-14249 (2016). (doi:10.1039/C6CC08059F) 11.3.1

23. Coletta, Marco, Ross McLellan, Paul Murphy, Bernhard T Leube, Sergio Sanz, R. Clowes, K.J. Gagnon, S.J. Teat, Andrew I. Cooper, Martin J. Paterson, E.K. Brechin, and S.J. Dalgarno, “Bis-Calix[4]arenes: From Ligand Design to the Directed Assembly of a Metal-Organic Trigonal Antiprism,” Chemistry - A European Journal 22(26), 8791-8795 (2016). (doi:10.1002/chem.201600762) 11.3.1

24. Cols, Jean-Marie, Cameron E. Taylor, Kevin J. Gagnon, Simon J. Teat, and Ruaraidh D McIntosh, “Well-defined Ti4 pre-catalysts for the ring-opening polymerisation of lactide,” Dalton Trans. 45(44), 17729-17738 (2016). (doi:10.1039/C6DT03842E) 11.3.1

25. Darawsheh, M., L.A. Barrios, O. Roubeau, S.J. Teat, and G. Aromi, “Guest-, Light- and Thermally-Modulated Spin Crossover in [FeII2] Supramolecular Helicates,” Chemistry - A European Journal 22(25), 8635-8645 (2016). (doi:10.1002/chem.201601080) 11.3.1

26. Dass, Amala, Tanya Jones, Milan Rambukwella, David Crasto, K.J. Gagnon, Luca Sementa, Martina De Vetta, Oscar Baseggio, Edoardo Aprà, Mauro Stener, and Alessand Fortunelli, “Crystal Structure and Theoretical Analysis of Green Gold Au30(S-tBu)18 Nanomolecules and Their Relation to Au30S(S-tBu)18,” Journal of Physical Chemistry C 120(11), 6256-6261 (2016). (doi:10.1021/acs.jpcc.6b00062) 11.3.1

27. Deibert, Benjamin J, Ever Velasco, W. Liu, Simon J. Teat, William P. Lustig, and Jing Li, “High-Performance Blue-Excitable Yellow Phosphor Obtained from an Activated Solvochromic Bismuth-Potassium Metal-Organic Framework,” Crystal Growth 16(8), 4178-4182 (2016). (doi:10.1021/acs.cgd.6b00622) 11.3.1

28. Díaz-Torres, R., M. Menelaou, A. González-Campo, S.J. Teat, E. Sañudo, M. Soler, and N. Aliaga-Alcalde, “Comparative Magnetic Studies in the Solid State and Solution of Two Isostructural 1D Coordination Polymers Containing CoII/NiII-Curcuminoid Moieties,” Magnetochemistry 2(3), 29 (2016). (doi:10.3390/magnetochemistry2030029) 11.3.1

29. Díaz-Torres, R., M. Menelaou, O. Roubeau, A. Sorrenti, G. Brandariz-de-Pedro, E.C. Sañudo, S.J. Teat, J. Fraxedas, E. Ruiz, and N. Aliaga-Alcalde, “Multiscale study of mononuclear CoII SMMs based on curcuminoid ligands,” Chem. Sci. 7, 2793-2803 (2016). (doi:10.1039/C5SC03298A) 11.3.1

30. Einrem, Rune F., K.J. Gagnon, Abraham Alemayehu, and Abhik Ghosh, “Metal-Ligand Misfits: Facile Access to Rhenium-Oxo Corroles by Oxidative Metalation,” Chemistry - A European Journal 22(2), 517-520 (2016). (doi:10.1002/chem.201504307) 11.3.1

31. Eisenberg, David, Wowa Stroek, Norbert Geels, Stefania Tanase-Grecea, Marilena Ferbinteanu, Simon Teat, Pierre Mettraux, Ning Yan, and Gadi Rothenberg, “A Rational Synthesis of Hierarchically Porous, N-Doped Carbon from Mg-Based MOFs: Understanding the Link between Nitrogen Content and Oxygen Reduction Electrocatalysis,” Phys. Chem. Chem. Phys. 18(30), 20778-20783 (2016). (doi:10.1039/C6CP04132A) 11.3.1

32. Escuer, Albert, Beatriz Cordero, Mercè Font-Bardia, S.J. Teat, and O. Roubeau, “Manganese-Salicyloximate Clusters Starting from [MnII(hfacac)2]: From Mn4 to Mn12,” European Journal of Inorganic Chemistry 2016(8), 1232-1241 (2016). (doi:10.1002/ejic.201501372) 11.3.1

33. Featherston, Aaron L., and Scott J. Miller, “Synthesis and evaluation of phenylalanine-derived trifluoromethyl ketones for peptide-based oxidation catalysis,” Bioorganic 24(20), 4871-4874 (2016). (doi:10.1016/j.bmc.2016.07.012) 11.3.1

34. Fellows, W.B., A.M. Rice, D.E. Williams, E.A. Dolgopolova, A.K. Vannucci, P.J. Pellechia, M.D. Smith, J.A. Krause, and N.B. Shustova, “Redox-Active Corannulene Buckybowls in a Crystalline Hybrid Scaffold,” Angewandte Chemie International Edition 55, 2195-2199 (2016). (doi:10.1002/anie.201509557) 11.3.1

35. Fortier, S., J. Velata, A. Pialat, J. Le Roy, K.B. Ghiassi, M.M. Olmstead, A. Metta-Magana, M. Murugesu, and D. Villagran, “(bipy)4: A Mistaken Case of U0?,” Chemistry - A European Journal 22(6), 1931-1936 (2016). (doi:10.1002/chem.201504982) 11.3.1

36. Gharamaleki, Jafar At, Fahimeh Akbari, Akram Karbalaei, K.B. Ghiassi, and Marilyn Olmstead, “Synthesis, Characterization and Crystal Structure of a New Schiff Base Ligand from a Bis(Thiazoline) Template and Hydrolytic Cleavage of the Imine Bond Induced by a Co(II) Cation,” Open Journal of Inorganic Chemistry 6(1), 76-88 (2016). (doi:10.4236/ojic.2016.61005) 11.3.1

37. Ghiassi, K.B., Xian B. Powers, Joseph Wescott, Alan L. Balch, and Marilyn Olmstead, “Crystal Engineering Gone Awry. What a Difference a Few Methyl Groups Make in Fullerene/Porphyrin Cocrystallization,” Crystal Growth 16(1), 447-455 (2016). (doi:10.1021/acs.cgd.5b01449) 11.3.1

38. Gygi, David, Eric D. Bloch, Jarad A. Mason, Matthew Hudson, Miguel I Gonzalez, R.L. Siegelman, Tamim A. Darwish, Wendy L. Queen, Craig M. Brown, and Jeffrey Long, “Hydrogen Storage in the Expanded Pore Metal-Organic Frameworks M2(dobpdc) (M = Mg, Mn, Fe, Co, Ni, Zn),” Chem. Mater. 28(4), 1128-1138 (2016). (doi:10.1021/acs.chemmater.5b04538) 11.3.1

39. Hartnett, Patrick E, Eric A. Margulies, H.S.S. Ramakrishna Matte, Mark C Hersam, Tobin J. Marks, and Michael R. Wasielewski, “Effects of Crystalline Perylenediimide Acceptor Morphology on Optoelectronic Properties and Device Performance,” Chem. Mater. 28(11), 3928-3936 (2016). (doi:10.1021/acs.chemmater.6b01230) 11.3.1

40. He, B., W.T. Neo, T.L. Chen, L.M. Klivansky, H. Wang, T. Tan, S.J. Teat, J. Xu, and Y. Liu, “Low Bandgap Conjugated Polymers Based on a Nature-Inspired Bay-Annulated Indigo (BAI) Acceptor as Stable Electrochromic Materials,” ACS Sustainable Chem Eng 4(5), 2797-2805 (2016). (doi:10.1021/acssuschemeng.6b00303) 11.3.1

41. Hendon, Christophe, Fabienne Pradaux-Caggiano, Lauren E. Hatcher, William J. Gee, Chick C. Wilson, Keith T. Butler, David R. Carbery, Aron Walsh, and Brent C. Melot, “Magnetic coupling in a hybrid Mn(II) acetylene dicarboxylate,” Phys. Chem. Chem. Phys. 18(48), 33329-3333 (2016). (doi:10.1039/C6CP06886C) 11.3.1

42. Jaffe, A., Y. Lin, C.M. Beavers, J. Voss, W.L. Mao, and H.I. Karunadasa, “High-Pressure Single-Crystal Structures of 3D Lead-Halide Hybrid Perovskites and Pressure Effects on their Electronic and Optical Properties,” ACS Cent Sci 2(4), 201-209 (2016). (doi:10.1021/acscentsci.6b00055) 11.3.1, 12.2.2

43. Junghans, Katrin, Kamran B. Ghiassi, Nataliya A Samoylova, Qingming Deng, Marco Rosenkranz, Marilyn M. Olmstead, Alan L. Balch, and Alexey A. Popov, “Synthesis and Isolation of the Titanium‚ÄìScandium Endohedral Fullerenes‚ÄîSc2TiC@Ih-C80, Sc2TiC@D5h-C80 and Sc2TiC2@Ih-C80: Metal Size Tuning of the TiIV/TiIII Redox Potentials,” Chemistry - A European Journal 22(37), 13098-13107 (2016). (doi:10.1002/chem.201601655) 11.3.1

44. Kaszy≈Ñski, Piotr, Christos P Constantinides, and Victor G. Young Jr., “The Planar Blatter Radical: Structural Chemistry of 1,4-Dihydrobenzo[e][1,2,4]triazin-4-yls,” Angewandte Chemie International Edition 55(37), 11149-11152 (2016). (doi:10.1002/anie.201605612) 11.3.1

45. Kaur, Amninder, Huzefa A. Raja, Dale C. Swenson, Rajesh Agarwal, Gagan Deep, Joseph O. Falkinham, and Nicholas H Oberlies, “Talarolutins A-D: Meroterpenoids from an endophytic fungal isolate of Talaromyces minioluteus,” Phytochemistry 126, 4-10 (2016). (doi:10.1016/j.phytochem.2016.03.013) 11.3.1

46. Kou, F., Suliang Yang, Lihua Zhang, Simon J. Teat, and Guoxin Tian, “Complexation of Ho(III) with tetraalkyl-diglycolamide in aqueous solutions and a solid state compared in organic solutions of solvent extraction,” Inorg Chem Comm 71, 41-44 (2016). (doi:10.1016/j.inoche.2016.06.035) 11.3.1

47. Kou, F., Suliang Yang, H. Zhang, Hongjuan Qian, Christine Beavers, Simon Teat, and Guoxin Tian, “A fluorescence study on the complexation of Sm(III), Eu(III) and Tb(III) with tetraalkyl-diglycolamides (TRDGA) in aqueous solution, in solid state, and in solvent extraction,” Dalton Trans. 45(46), 18484-18493 (2016). (doi:10.1039/C6DT02930B) 11.3.1

48. Lee, Semin, Anna Yang, Timothy Moneypenny, and Jeffrey Moore, “Kinetically Trapped Tetrahedral Cages via Alkyne Metathesis,” Journal of the American Chemical Society 138(7), 2182-2185 (2016). (doi:10.1021/jacs.6b00468) 11.3.1

49. Lee, S., E. A. Kapustin, and O. M. Yaghi, “Coordinative alignment of molecules in chiral metal-organic frameworks,” Science 353(6301), 808-811 (2016). (doi:10.1126/science.aaf9135) 11.3.1

50. Leggett, C.J., B.F. Parker, S.J. Teat, Z. Zhang, P.V. Dau, W.W. Lukens, S.M. Peterson, A.J.P. Cardenas, M.G. Warner, J.K. Gibson, J. Arnold, and L. Rao, “Structural and spectroscopic studies of a rare non-oxido V(V) complex crystallized from aqueous solution,” Chem. Sci. 7, 2775-2786 (2016). (doi:10.1039/c5sc03958d) 11.3.1

51. Levin, Mark D., David M. Kaphan, Cynthia M. Hong, Robert G. Bergman, Kenneth N. Raymond, and F. Dean Toste, “Scope and Mechanism of Cooperativity at the Intersection of Organometallic and Supramolecular Catalysis,” Journal of the American Chemical Society 138(30), 9682-9693 (2016). (doi:10.1021/jacs.6b05442) 11.3.1

52. Li, Huizhen, Wenjuan Meng, Anubendu Adhikary, Shujun Li, Nana Ma, Qianyi Zhao, Qiuyu Yang, Nathan A Eberhardt, Kendra M Leahy, Jeanette Krause, J. Zhang, Xuenian Chen, and Hairong Guan, “Metathesis reactivity of bis(phosphinite) pincer ligated nickel chloride, isothiocyanate and azide complexes,” Journal of Organometallic Chemistry 804, 132-141 (2016). (doi:10.1016/j.jorganchem.2015.12.038) 11.3.1

53. Liu, X., Adriana González-Castro, Ilpo Mutikainen, Andrej Pevec, S.J. Teat, Patrick Gamez, Jose San Costa, Elisabeth Bouwman, and J. Reedijk, “Zinc and cadmium halide compounds with the tridentate ligand 2-(methylsulfanyl)-N-(pyridin-2-ylmethylidene)aniline showing yellow luminescence,” Polyhedron 110, 100-105 (2016). (doi:10.1016/j.poly.2016.02.030) 11.3.1

54. Lohrey, Trevor D., Robert G. Bergman, and John Arnold, “Oxygen Atom Transfer and Intramolecular Nitrene Transfer in a Rhenium β-Diketiminate Complex,” Inorganic Chemistry 55(22), 11993-1200 (2016). (doi:10.1021/acs.inorgchem.6b02122) 11.3.1

55. Lorusso, Giulia, O. Roubeau, and Marco Evangelisti, “Rotating Magnetocaloric Effect in an Anisotropic Molecular Dimer,” Angewandte Chemie International Edition 55(10), 3360-3363 (2016). (doi:10.1002/anie.201510468) 11.3.1

56. Lumetta, Gregg J., Sergey I Sinkov, Jeanette Krause, and Lucas E. Sweet, “Neodymium(III) Complexes of Dialkylphosphoric and Dialkylphosphonic Acids Relevant to Liquid-Liquid Extraction Systems,” Inorganic Chemistry 55(4), 1633-1641 (2016). (doi:10.1021/acs.inorgchem.5b02524) 11.3.1

57. Lustig, William P., Fangming Wang, Simon J. Teat, Zhichao Hu, Qihan Gong, and Jing Li, “Chromophore-Based Luminescent Metal-Organic Frameworks as Lighting Phosphors,” Inorganic Chemistry 55(15), 7250-7256 (2016). (doi:10.1021/acs.inorgchem.6b00897) 11.3.1

58. Mayhan, Collin M, Amanda M Drachnik, Andrew V Mossine, Harshita Kumari, Drew A. Fowler, Charles L. Barnes, Simon J. Teat, John E Adams, Jerry L. Atwood, and Carol A Deakyne, “Metal Organic Nanocapsules as Two-Dimensional Network Building Blocks,” Journal of Physical Chemistry C 120(24), 13159-13168 (2016). (doi:10.1021/acs.jpcc.6b04690) 11.3.1

59. McCormick, L.J., S.A. Morris, A.M.Z. Slawin, S.J. Teat, and R. . Morris, “Coordination polymers of 5-substituted isophthalic acid,” CrystEngComm 18(7), 1123-1132 (2016). (doi:10.1039/C5CE02091C) 11.3.1

60. McCormick, L.J., S.A. Morris, A.M.Z. Slawin, S.J. Teat, and R.E. Morris, “Coordination polymers of 5-alkoxy isophthalic acids,” Crystal Growth 16(10), 5771-5780 (2016). (doi:10.1021/acs.cgd.6b00853) 11.3.1

61. Mercado, Rocio, Bess Vlaisavljevich, Li-Chiang Lin, Kyuho Lee, Yongjin Lee, Jarad A. Mason, Dianne J. Xiao, Miguel I. Gonzalez, Matthew T. Kapelewski, Jeffrey B. Neaton, and Berend Smit, “Force Field Development from Periodic Density Functional Theory Calculations for Gas Separation Applications Using Metal‚ÄìOrganic Frameworks,” Journal of Physical Chemistry C 120(23), 12590-1260 (2016). (doi:10.1021/acs.jpcc.6b03393) 11.3.1

62. Mercer, Jaron A. M, Carolyn M. Cohen, Steven R. Shuken, Anna M. Wagner, Myles W. Smith, Frank R. Moss, Matthew D. Smith, Riku Vahala, Alejandro Gonzalez-Martinez, Steven G. Boxer, and Noah Z. Burns, “Chemical Synthesis and Self-Assembly of a Ladderane Phospholipid,” Journal of the American Chemical Society 138(49), 15845-1584 (2016). (doi:10.1021/jacs.6b10706) 11.3.1

63. Moll, P.J.W. , N.L. Nair, T. Helm, A.C. Potter, I. Kimchi, A. Vishwanath, and J.G. Analytis, “Transport evidence for Fermi-arc-mediated chirality transfer in the Dirac semimetal Cd3As2,” Nature 535, 266-270 (2016). (doi:10.1038/nature18276) 11.3.1, 12.3.2

64. Naeem, Ayesha, Valeska P Ting, Ulrich Hintermair, M. Tian, Richard Telford, Saaiba Halim, Harriott Nowell, Malgorzata Holynska, Simon Teat, Ian J Scowen, and Sanjit Nayak, “Mixed-linker Approach in Designing Porous Zirconium Based Metal-Organic Frameworks with High Hydrogen Storage Capacity,” Chem. Commun. 52(50), 7826-7829 (2016). (doi:10.1039/C6CC03787A) 11.3.1

65. Norheim, H.K., J. Capar, R.F. Einrem, K.J. Gagnon, C.M. Beavers, H. Vazquez-Lima, and A. Ghosh, “Ligand noninnocence in FeNO corroles: insights from β-octabromocorrole complexes,” Dalton Trans. 45(2), 681-689 (2016). (doi:10.1039/C5DT03947A) 11.3.1

66. Parkin, Sean R., Karl J. Thorley, Kevin J Gagnon, and Edward J. Behrman, “Epitaxially intergrown conformational polymorphs, and a mixed water/methanol solvate of 5'-deoxy-5'-iodoguanosine,” Crystal Growth 16(11), 6343-6353 (2016). (doi:10.1021/acs.cgd.6b00981) 11.3.1

67. Perlepe, P.S., L. Cunha-Silva, K.J. Gagnon, S.J. Teat, C. Lampropoulos, A. Escuer, and T.C. Stamatatos, “'Ligands-with-Benefits': Naphthalene-substituted Schiff bases yielding new NiII metal clusters with ferromagnetic and emissive properties, and undergoing exciting transformations,” Inorganic Chemistry 55(3), 1270-1277 (2016). (doi:10.1021/acs.inorgchem.5b02492) 11.3.1

68. Perlepe, Panagiota, Luis Cunha-Silva, Vlasoula Bekiari, Kevin J Gagnon, Simon Teat, Albert Escuer, and Theocharis Stamatatos, “Structural diversity in NiII cluster chemistry: Ni5, Ni6, and NiNa2n complexes bearing the Schiff-base ligand N-naphthalidene-2-amino-5-chlorobenzoic acid,” Dalton Trans. 45(25), 10256-10270 (2016). (doi:10.1039/C6DT01162D) 11.3.1

69. Presa, Andreu, L.A. Barrios, Jordi Cirera, Luís Korrodi-Greg√≥rio, Ricardo Pérez-Tomás, S.J. Teat, and Patrick Gamez, “Non-Switching 1,2-Dithienylethene-based Diplatinum(II) Complex Showing High Cytotoxicity,” Inorganic Chemistry 55(11), 5356-5364 (2016). (doi:10.1021/acs.inorgchem.6b00362) 11.3.1

70. Rahman, S., H. Tomiyasu, H. Kawazoe, J.-L. Zhao, H. Cong, X.-L. Ni, X. Zeng, M.R.J. Elsegood, T.G. Warwick, C. Redshaw, S.J. Teat, P.E. Georghiou, and T. Yamato, “A study of anion binding behaviour of 1,3-alternate thiacalix[4]arene‚Äìbased receptors bearing urea moieties,” New J. Chem. 40(11), 9245-9251 (2016). (doi:10.1039/C6NJ00923A) 11.3.1

71. Rathnayake, Asanka S., K.A. Feaster, Joshua White, Charles L. Barnes, S.J. Teat, and Jerry L. Atwood, “Investigating Reaction Conditions to Control the Self-assembly of Cobalt-seamed Nanocapsules,” Crystal Growth 16(7), 3562-3564 (2016). (doi:10.1021/acs.cgd.6b00306) 11.3.1

72. Reed, Douglas A., Dianne J. Xiao, Miguel I. Gonzalez, L.E. Darago, Z.R. Herm, Fernande Grandjean, and Jeffrey R. Long, “Reversible CO Scavenging via Adsorbate-Dependent Spin State Transitions in an Iron(II)-Triazolate Metal-Organic Framework,” Journal of the American Chemical Society 138(17), 5594-5602 (2016). (doi:10.1021/jacs.6b00248) 11.3.1

73. Reiss, Paul S., Marc A. Little, Valentina Santolini, Samantha Y Chong, T. Hasell, Kim E. Jelfs, Michael E. Briggs, and Andrew I. Cooper, “Periphery-Functionalized Porous Organic Cages,” Chemistry - A European Journal 22(46), 16547-16553 (2016). (doi:10.1002/chem.201603593) 11.3.1

74. Rudd, Nathan D., H. Wang, Erika M.A. Fuentes-Fernandez, Simon J. Teat, Feng Chen, Gene Hall, Yves J. Chabal, and Jing Li, “A Highly Efficient Luminescent Metal-Organic Framework for the Simultaneous Detection and Removal of Heavy Metals from Water,” ACS Applied Materials 8(44), 30294-30303 (2016). (doi:10.1021/acsami.6b10890) 11.3.1

75. Ryan, J.D., K.J. Gagnon, S.J. Teat, and R.D. McIntosh, “Flexible macrocycles as versatile supports for catalytically active metal clusters,” Chem. Commun. 52(58), 9071-9073 (2016). (doi:10.1039/C6CC00478D) 11.3.1

76. Shepherd, Helena, George Tonge, L.E. Hatcher, Mathew Bryant, J.V. Knichal, P.R. Raithby, Malcolm Halcrow, Rafal Kulmaczewski, K.J. Gagnon, and S.J. Teat, “A High Pressure Investigation of the Order-Disorder Phase Transition and Accompanying Spin Crossover in [FeL12](ClO4)2 (L1 = 2,6-bis3-methylpyrazol-1-yl-pyrazine),” Magnetochemistry 2(1), 9 (2016). (doi:10.3390/magnetochemistry2010009) 11.3.1

77. Slater, Natasha H, Benjamin R Buckley, Mark R. J. Elsegood, Simon J. Teat, and Marc C. Kimber, “Controlling the assembly of C2-symmetric molecular tectons using a thiocarbamate appended carbocyclic cleft molecule analogous to Tröger's base,” Crystal Growth 16(7), 3846-3852 (2016). (doi:10.1021/acs.cgd.6b00388) 11.3.1

78. Slavney, A., T. Hu, A.M. Lindenberg, and H.I. Karunadasa, “A Bismuth-Halide Double Perovskite with Long Carrier Recombination Lifetime for Photovoltaic Applications,” Journal of the American Chemical Society 138(7), 2138-2141 (2016). (doi:10.1021/jacs.5b13294) 11.3.1

79. Stevenson, Steven, Kristine Arvola, Muska Fahim, Benjamin Martin, K.B. Ghiassi, Marilyn Olmstead, and Alan L. Balch, “Isolation and Crystallographic Characterization of Gd3N@D2(35)-C88 through Non-Chromatographic Methods,” Inorganic Chemistry 55(1), 62-67 (2016). (doi:10.1021/acs.inorgchem.5b01814) 11.3.1

80. Swavey, Shawn, Michael Coladipietro, Aliah Burbayea, and Jeanette A Krause, “Two-Step Synthetic Route toward Asymmetric and Symmetric Boron Dipyrromethenes: Synthesis, Optical Properties, and Electrochemistry: Two-Step Synthetic Route toward Asymmetric and Symmetric Boron Dipyrromethenes: Synthesis, Optical Properties, and Electrochemistry,” European Journal of Organic Chemistry 2016(25), 4429-4435 (2016). (doi:10.1002/ejoc.201600787) 11.3.1

81. Taylor, Mercedes K, Tomƒçe Runƒçevski, Julia Oktawiec, Miguel I. Gonzalez, Rebecca L. Siegelman, Jarad A. Mason, Jinxing Ye, Craig M. Brown, and Jeffrey R. Long, “Tuning the Adsorption-Induced Phase Change in the Flexible Metal-Organic Framework Co(bdp),” Journal of the American Chemical Society 138(45), 15019-15026 (2016). (doi:10.1021/jacs.6b09155) 11.3.1

82. Urban, Philipp, Noelle R. Catarineu, Maureen B. Morla, and Omar M. Yaghi, “Symmetry in MOF synthesis: a new network topology from a heterotritopic linker,” Acta Crystallographica, Section A: Foundations of Crystallography 72, s404 (2016). (doi:10.1107/S2053273316094109) 11.3.1

83. Walters, Daniel T., Kellie R. England, Kamran B. Ghiassi, Fikerete Z Semma, Marilyn M. Olmstead, and Alan L. Balch, “Steric Effects and Aurophilic Interactions in Crystals of Au2(μ-1,2-bis(diphenylphosphino)ethane)X2 and Au2(μ-1,2-bis(dicyclohexylphosphino)ethane)X2 (X = Cl, Br, I),” Polyhedron 117, 535-541 (2016). (doi:10.1016/j.poly.2016.06.031) 11.3.1

84. Wang, FangMing, W. Liu, Simon J. Teat, Feng Xu, H. Wang, Xinlong Wang, Litao An, and Jing Li, “Chromophore-immobilized luminescent metal-organic frameworks as potential lighting phosphors and chemical sensors,” Chem. Commun. 52(67), 10249-10252 (2016). (doi:10.1039/C6CC05290H) 11.3.1

85. Whitehead, G., Jes√∫s Ferrando-Soria, Laura Carthy, Robin G. Pritchard, S.J. Teat, Grigore Timco, and R. Winpenny, “Synthesis and reactions of N-heterocycle functionalised variants of heterometallic Cr7Ni rings,” Dalton Trans. 45(4), 1638-1647 (2016). (doi:10.1039/C5DT04062K) 11.3.1

86. Woodall, Christophe, Jeppe Christensen, Jonathan M Skelton, Lauren E. Hatcher, Andrew Parlett, Paul R. Raithby, Aron Walsh, Stephen C. Parker, Christine Beavers, Simon J. Teat, Mourad Intissar, Christian Reber, and David R. Allan, “Observation of a re-entrant phase transition in the molecular complex tris¬≠(μ2-3,5-diisopropyl-1,2,4-triazolato-κ2N1:N2)trigold(I) under high pressure,” IUCrJ 3(5) (2016). (doi:10.1107/S2052252516013129) 11.3.1

87. Xian, Liang, Guoxin Tian, C.M. Beavers, S.J. Teat, and D.K. Shuh, “Glutarimidedioxime: A Complexing and Reducing Reagent for Plutonium Recovery from Spent Nuclear Fuel Reprocessing,” Angewandte Chemie International Edition 55(15), 4671-4673 (2016). (doi:10.1002/anie.201510712) 11.3.1

88. Xiao, D.J., M.I. Gonzalez, L.E. Darago, K. Vogiatzis, E. Haldoupis, L. Gagliardi, and J.R. Long, “Selective, Tunable O2 Binding in Cobalt(II)-Triazolate/Pyrazolate Metal-Organic Frameworks,” Journal of the American Chemical Society 138(22), 7161-7170 (2016). (doi:10.1021/jacs.6b03680) 11.3.1

89. Yang, Y-Q., S.J. Teat, Z. Zhang, S. Luo, and L. Rao, “Complexation of U(VI) with Benzoic Acid at Variable Temperatures (298 ‚Äì 343 K): Thermodynamics and Crystal Structures of U(VI)/Benzoate Complexes,” Dalton Trans. 45(1), 384-391 (2016). (doi:10.1039/C5DT03532E) 11.3.1

90. Zhang, Xuan, Hanhua Zhao, Lukas Palatinus, K.J. Gagnon, J. Bacsa, and K.R. Dunbar, “Self-Assembly of Organocyanide Dianions and Metal-Organic Macrocycles into Polymeric Architectures Including an Unprecedented Quadruple Helical Aperiodic Structure,” Crystal Growth 16(4), 1805-1811 (2016). (doi:10.1021/acs.cgd.6b00112) 11.3.1

91. Zhao, Jiang-Lin, Chong Wu, X.i. Zeng, Shofiur Rahman, Paris E. Georghiou, Mark R. J. Elsegood, Thomas Warwick, Carl Redshaw, Simon J. Teat, and Takehiko Yamato, “Thiacalix[4]arene Derivatives Bearing Imidazole Units: A Ditopic Hard/Soft Receptor for Na+ and K+/Ag+ with an Allosteric Effect and a Reusable Extractant for Dichromate Anions,” ChemistrySelect 1(8), 1541-1547 (2016). (doi:10.1002/slct.201600245) 11.3.1


92. Barrios, L.A., J. Salinas-Uber, O. Roubeau, S.J. Teat, and G. Aromi, “Molecular Self-recognition: A Chiral [Mn(II)[d6]] Wheelvia Donor-Acceptor π¬∑¬∑¬∑π Contacts and H-Bonds ,” Chem. Commun. 51(22), 4631-4634 (2015). (doi:10.1039/C5CC00142K) 11.3.1

93. Borilovic, I., O. Roubeau, I. Fernández Vidal, S.J. Teat, and G. Aromi, “Novel Topologies in Vanadium-bis-β-Diketone Chemistry: A [V4] and a [V6] Metallacyclophane,” Magnetochemistry 1(1), 45-61 (2015). (doi:10.3390/magnetochemistry1010045) 11.3.1

94. Capar, J., J. Conradie, C.M. Beavers, and A. Ghosh, “Molecular Structures of Free-Base Corroles: Nonplanarity, Chirality,and Enantiomerization,” Journal of Physical Chemistry A 119(14), 3452-34257 (2015). (doi:10.1021/jp511188c) 11.3.1

95. Capar, J., S. Berg, K.E. Thomas, C.M. Beavers, K.J. Gagnon, and A. Ghosh, “Improved syntheses of β-octabromo-meso-triarylcorrole derivatives,” Journal of Inorganic Biochemistry 153, 162-166 (2015). (doi:10.1016/j.jinorgbio.2015.07.017) 11.3.1

96. Casey, W.H., M.M. Olmstead, C.R. Hazlett, C. Lamar, and T.Z. Forbes, “A New Nanometer-sized Ga(III)-Oxyhydroxide Cation,” Inorganics 3(1), 21-26 (2015). (doi:10.3390/inorganics3010021) 11.3.1

97. Cer√≥n, M.R., M. Izquierdo, A. Aghabali, J.R. Valdez, K.B. Ghiassi, M.M. Olmstead, A.L. Balch, F. Wudl, and L. Echegoyen, “Tethered Bis-Adducts of C60 and C70 with Addends on a Common Hexagonal Face and a 12-membered Hole in the Fullerene Cage,” Journal of the American Chemical Society 137(23), 7502-7508 (2015). (doi:10.1021/jacs.5b03768) 11.3.1

98. Chen, C-H., A. Aghabali, C. Suarez, M.M. Olmstead, A.L. Balch, and L. Echegoyen, “Synthesis and characterization of bis-triruthenium cluster derivatives of an all equatorial [60]fullerene tetramalonate,” Chem. Commun. 51(30), 6489-6492 (2015). (doi:10.1039/C4CC10397A) 11.3.1

99. Chen, C.-H., K.B. Ghiassi, M.R. Cer√≥n, M.A. Guerrero-Ayala, L. Echegoyen, M.M. Olmstead, and A.L. Balch, “Beyond the Butterfly: Sc2C2@C2v(9)-C86, an Endohedral Fullerene Containing a Planar, Twisted Sc2C2 Unit with Remarkable Crystalline Order in an Unprecedented Carbon Cage,” Journal of the American Chemical Society 137(32), 10116-10119 (2015). (doi:10.1021/jacs.5b06425) 11.3.1

100. Chen, C.-H., A. Aghabali, A.J. Metta Magana, M.M. Olmstead, A.L. Balch, and L. Echegoyen, “Synthesis and Characterization of a trans-1 Hexakis-fullerene Linker that Forms Crystalline Polymers with Silver Salts,” Dalton Trans. 44(42), 18487-18491 (2015). (doi:10.1039/C5DT03054D) 11.3.1

101. Chrisman, M.A., R.R. Baum, J.E. Grabo, J.A. Krause, D.L. Tierney, and M.J. Baldwin, “Structure, Spectroscopy, Stability, and Bridge Exchange in the M3O4 Incomplete-Cubane Complexes, [M(III)3(Sal-AHA)3(μ-OR)]- (M = Fe, Ga),” Polyhedron 100, 164-169 (2015). (doi:10.1016/j.poly.2015.07.069) 11.3.1

102. Colaneri, M.J. , S.J. Teat, and J. Vitali, “Models for Copper Dynamic Behavior in Doped Cadmium dl-Histidine Crystals: Electron Paramagnetic Resonance and Crystallographic Analysis,” Journal of Physical Chemistry 119(45), 11119-11127 (2015). (doi:10.1021/acs.jpca.5b07864) 11.3.1

103. Darago, L.E., M.L. Aubrey, C.J. Yu, M.I. Gonzalez, and J. Long, “Electronic Conductivity, Ferrimagnetic Ordering, and Reductive Insertion Mediated by Organic Mixed-Valence in a Ferric Semiquinoid Metal-Organic Framework,” Journal of the American Chemical Society 137(50), 15703-15711 (2015). (doi:10.1021/jacs.5b10385) 11.3.1

104. Dolgopolova, E.A., D.E. Williams, A.B. Greytak, A.M. Rice, M.D. Smith, J.A. Krause, and N.B. Shustova, “A Bio-inspired Approach for Chromophore Communication: Ligand-to-Ligand and Host-to-Guest Energy Transfer in Hybrid Crystalline Scaffolds,” Angewandte Chemie International Edition 54(46), 13639-13643 (2015). (doi:10.1002/anie.201507400) 11.3.1

105. Ericson, D.P., Z.P. Zurfluh-Cunningham, R. Groeneman, E. Elacqua, E.W. Reinheimer, B.C. Noll, and L.R. MacGillivray, “Regiocontrol of the [2+2] Photodimerization in the Solid State using Isosteric Resorcinols: Head-to-Tail Cyclobutane Formation via Unexpected Embraced Assemblies,” Crystal Growth 15(12), 5744-5748 (2015). (doi:10.1021/acs.cgd.5b00939) 11.3.1

106. Fairbairn, R.E., S.J. Teat, K.J. Gagnon, and S.J. Dalgarno, “A Convenient Synthetic Route to Partial-Cone p-Carboxylatocalix[4]arenes,” CHIMIA International Journal for Chemistry 69(9), 516-519 (2015). (doi:10.2533/chimia.2015.516) 11.3.1

107. Feng, X., J-Y. Hu, H. Tomiyasu, Z. Tao, C. Redshaw, M.R. Elsegood, L. Horsburgh, S.J. Teat, X-F. Wei, and T. Yamato, “Iron(III) bromide catalyzed bromination of 2-tert-butylpyrene and corresponding position-dependent aryl-functionalized pyrene derivatives ,” RSC Adv. 5(12), 8835-8848 (2015). (doi:10.1039/C4RA12216J) 11.3.1

108. Feng, Xing, Hirotsug Tomiyasu, Jian-Yon Hu, Xianfu Wei, C. Redshaw, M.R. Elsegood, Lynne Horsburgh, S.J. Teat, and Takehiko Yamato, “Regioselective Substitution at the 1,3- and 6,8-Positions of Pyrene for the Construction of Small Dipolar Molecules,” The Journal of Organic Chemistry 80(21), 10973-10978 (2015). (doi:10.1021/acs.joc.5b02128) 11.3.1

109. Fernandez, B., M.R. Elsegood, G. Fairley, G.J. Pritchard, S.J. Teat, and G.W. Weaver, “Isolation and structure determination of the first example of the azeto[2,3-c]quinolizinedione ring system,” Tetrahedron Letters 56(36), 5120-5122 (2015). (doi:10.1016/j.tetlet.2015.07.029) 11.3.1

110. Ghiassi, K.B., J. Wescott, S.Y. Chen, A.L. Balch, and M.M. Olmstead, “Waves of Halogen-Halogen Bond Formation in the Cocrystallization of Hexabromobenzene and 1,2,4,5-Tetrabromobenzene with C70,” Crystal Growth 15(5), 2480-2485 (2015). (doi:10.1021/acs.cgd.5b00256) 11.3.1

111. Ghiassi, K.B., D.T. Walters, M.M. Aristov, N.D. Loewen, L.A. Berben, M. Rivera, M.M. Olmstead, and A.L. Balch, “Formation of a Stable Complex, RuCl2(S2CPPh3)(PPh3)2, Containing an Unstable Zwitterion from the Reaction of RuCl2(PPh3)3 with Carbon Disulfide,” Inorganic Chemistry 54(9), 4565-4573 (2015). (doi:10.1021/acs.inorgchem.5b00461) 11.3.1

112. Giannopoulos, D.P., C. Wilson-Konderka, K.J. Gagnon, S.J. Teat, A. Escuer, C. Metallinos, and T.C. Stamatatos, “Synthesis and first use of pyridine-2,6-diylbis(pyrazine-2-ylmethanone) in metal cluster chemistry: A MnIII3Na2 complex with an ideal trigonal bipyramidal geometry,” Dalton Trans. 44(9), 4318-4327 (2015). (doi:10.1039/C4DT03666B) 11.3.1

113. Gonzalez, M.I., E.D. Bloch, J.A. Mason, S.J. Teat, and J.R. Long, “Single-Crystal-to-Single-Crystal Metalation of a Metal-Organic Framework: A Route toward Structurally Well-Defined Catalysts,” Inorganic Chemistry 54(6), 2995-3005 (2015). (doi:10.1021/acs.inorgchem.5b00096) 11.3.1

114. Grancini, G., V. D'Innocenzo, E. Dohner, N. Martino, A.R. Srimath Kandada, E. Mosconi, F. De Angelis, H.I. Karunadasa, E.T. Hoke, and A. Petrozza, “CH3NH3PbI3 Perovskite Single Crystals: Surface Photophysics and their Interaction with the Environment,” Chem. Sci. 6(12), 7305-7310 (2015). (doi:10.1039/C5SC02542G) 11.3.1

115. Grau, J., R. Brissos, J. Salinas-Uber, A. Belén Caballero, A. Caubet, O. Roubeau, L. Korrodi-Greg√≥rio, R. Pérez-Tomás, and P. Gamez, “Effect of potential supramolecular-bond promoters on the DNA-interacting abilities of copper-terpyridine compounds,” Dalton Trans. 44(36), 16061-16072 (2015). (doi:10.1039/C5DT02211H) 11.3.1

116. He, B., J. Dai, D. Zherebetskyy, T.L. Chen, B.A. Zhang, S.J. Teat, Q. Zhang, L. Wang, and Y. Liu, “A Divergent Route to Core- and Peripherally Functionalized Diazacoronenes that Act As Colorimetric and Fluorescence Proton Sensors,” Chem. Sci. 6(5), 3180-3186 (2015). (doi:10.1039/C5SC00304K) 11.3.1

117. Hu, Z., G. Huang, W.P. Lustig, F. Wang, H. Wang, S.J. Teat, D. Banerjee, D. Zhang, and J. Li, “Achieving exceptionally high luminescence quantum efficiency by immobilizing an AIE molecular chromophore into a metal-organic framework,” Chem. Commun. 51(15), 3045-3048 (2015). (doi:10.1039/C4CC07642G) 11.3.1

118. Hu, Z., W.P. Lustig, J. Zhang, C. Zheng, H. Wang, S.J. Teat, Q. Gong, N.D. Rudd, and J. Li, “Effective Detection of Mycotoxins by a Highly Luminescent Metal-Organic Framework,” Journal of the American Chemical Society 137(51), 16209-1621 (2015). (doi:10.1021/jacs.5b10308) 11.3.1

119. Huang, Zhongjie, Wenjia Luo, L.u. Ma, Mingzhe Yu, Xiaodi Ren, Mingfu He, Shane Polen, Kevin Click, Benjamin Garrett, J. Lu, Khalil Amine, Christophe Hadad, Weilin Chen, Aravind Asthagiri, and Yiying Wu, “Dimeric [Mo2S12]2- Cluster: A Molecular Analogue of MoS2 Edges for Superior Hydrogen-Evolution Electrocatalysis,” Angewandte Chemie International Edition 54(50), 15181-1518 (2015). (doi:10.1002/anie.201507529) 11.3.1

120. Hwang, I.H., D.C. Swenson, J.B. Gloer, and D.T. Wicklow, “Pestaloporonins: Caryophyllene-Derived Sesquiterpenoids from a Fungicolous Isolate of Pestalotiopsis sp.,” Organic Letters 17(17), 4284-4287 (2015). (doi:10.1021/acs.orglett.5b02080) 11.3.1

121. Jaffe, A., Y. Lin, W.L. Mao, and H.I. Karunadasa, “Pressure-Induced Conductivity and Yellow-to-Black Piezochromism in a Layered Cu-Cl Hybrid Perovskite,” Journal of the American Chemical Society 137(4), 1673-1678 (2015). (doi:10.1021/ja512396m) 12.2.2, 11.3.1

122. Kaleta, J.i., E. Kaletova, I. Cisarova, S.J. Teat, and J. Michl, “Synthesis of Triptycene-Based Molecular Rotors for Langmuir-Blodgett Monolayers,” The Journal of Organic Chemistry 80(20), 10134-10150 (2015). (doi:10.1021/acs.joc.5b01753) 11.3.1

123. Kim, J., A.G. Oliver, G.T. Neumann, and J.C. Hicks, “Zn-MOFs Containing Pyridine and Bipyridine Carboxylate Organic Linkers and Open Zn2+ Sites,” European Journal of Inorganic Chemistry 2015(18), 3011-3018 (2015). (doi:10.1002/ejic.201500245) 11.3.1

124. Kimball, D., R. Munns, S.P. Fisher, M. Bartolo, J.R. Valdez, S.J. Teat, S. Tsui, and E.W. Reinheimer, “Utilizing Perylene in New Organic Donor-Acceptor Materials: Highlighting the Synthesis, Structure and Physical Properties of Perylene-pDNB and Perylene-TCNP,” Journal of Chemical Crystallography 45(4), 169-177 (2015). (doi:10.1007/s10870-015-0575-1) 11.3.1

125. Kruse, Samantha, and Stephani Hurst, “Rapid one-pot synthesis of cycloheptatriene-phosphonium derivatives,” Tetrahedron Letters 56(46), 6319-6322 (2015). (doi:10.1016/j.tetlet.2015.06.097) 11.3.1

126. Kumara, C., K.J. Gagnon, and A. Dass, “X-ray Crystal Structure of Au38-xAgx(SCH2CH2Ph)24 Alloy Nanomolecules,” The Journal of Physical Chemistry Letters 6(7), 1223-1228 (2015). (doi:10.1021/acs.jpclett.5b00270) 11.3.1

127. Liu, W., Y. Fang, G.Z. Wei, S.J. Teat, K. Xiong, Z. Hu, W.P. Lustig, and J. Li, “A family of highly efficient CuI-based lighting phosphors prepared by a systematic, bottom-up synthetic approach,” Journal of the American Chemical Society 137(29), 9400-9408 (2015). (doi:10.1021/jacs.5b04840) 11.3.1

128. Maji, R.C., A. Bhandaria, R. Singh, S. Roy, S.K. Chatterjee, F.L. Bowles, K.B. Ghiassi, M. Maji, M.M. Olmstead, and A.K. Patra, “Copper Coordinated Ligand Thioether-S and NO2- Oxidation: Relevance to CuM Site of Hydroxylases ,” Dalton Trans. 44(40), 17587-17599 (2015). (doi:10.1039/C5DT02184G) 11.3.1

129. Manes, Taylor A, and Michael Rose, “Redox properties of a bis-pyridine rhenium carbonyl derived from an anthracene scaffold,” Inorg Chem Comm 61, 221-224 (2015). (doi:10.1016/j.inoche.2015.10.012) 11.3.1

130. Mason, Jarad A., J. Oktawiec, Mercedes Taylor, Matthew Hudson, Julien Rodriguez, Jonathan Bachman, Miguel I Gonzalez, Antonio Cervellino, Antoniet Guagliardi, Craig M. Brown, Philip L Llewellyn, Norberto Masciocchi, and Jeffrey Long, “Methane storage in flexible metal-organic frameworks with intrinsic thermal management,” Nature 527, 357-361 (2015). (doi:10.1038/nature15732) 11.3.1

131. McCormick, Laura J., Samuel A Morris, S.J. Teat, Matthew McPherson, Alexandr Slawin, and Russell Morris, “Coordination polymers of ZnII and 5-methoxy isophthalate ,” Dalton Trans. 44(40), 17686-17695 (2015). (doi:10.1039/C5DT02924D) 11.3.1

132. McLellan, R., M.A. Palacios, C.M. Beavers, S.J. Teat, S. Piligkos, E.K. Brechin, and S.J. Dalgarno, “Linked Supramolecular Building Blocks for Enhanced Cluster Formation,” Chemistry - A European Journal 21(7), 2804-2812 (2015). (doi:10.1002/chem.201405746) 11.3.1

133. Medley, J., G. Payne, H.N. Banerjee, D. Giri, A. Winstead, J.M. Wachira, J.A. Krause, R. Shaw, S.K. Pramanik, and S.K. Mandal, “DNA-binding and cytotoxic efficacy studies of organorhenium pentylcarbonate compounds,” Molecular and Cellular Biochemistry 398(1-2), 21-30 (2015). (doi:10.1007/s11010-014-2201-5) 11.3.1

134. Nguyen, N.T., H. Furukawa, F. Gandara, C.A. Trickett, H.M. Jeong, K.E. Cordova, and O.M. Yaghi, “Three-Dimensional Metal-Catecholate Frameworks and their Ultrahigh Proton Conductivity,” Journal of the American Chemical Society 137(49), 15394-15397 (2015). (doi:10.1021/jacs.5b10999) 11.3.1

135. Palacios, M.A., R. McLellan, C.M. Beavers, S.J. Teat, H. Weihe, S. Piligkos, S.J. Dalgarno, and E.K. Brechin, “Facile Interchange of 3d and 4f Ions in Single-Molecule Magnets: Stepwise Assembly of [Mn4], [Mn3Ln] and [Mn2Ln2] Cages within Calix[4]arene Scaffolds,” Chemistry - A European Journal 21(31), 11212-11218 (2015). (doi:10.1002/chem.201500001) 11.3.1

136. Parson, C., V. Smith, C. Krauss, H.N. Banerjee, C. Reilly, J.A. Krause, J.M. Wachira, D. Giri, A. Winstead, and S.K. Mandal, “Anticancer Properties of Novel Rhenium Pentylcarbanato Compounds Against MDA-MB-468(HTB-132) Triple Node Negative Human Breast Cancer Cell Lines,” British Journal of Pharmaceutical Research 4(3), 362-367 (2015). (doi:10.9734/BJPR/2014/4697) 11.3.1

137. Peck, E.M., A.G. Oliver, and B.D. Smith, “Enhanced Squaraine Rotaxane Endoperoxide Chemiluminescence in Acidic Alcohols,” Australian Journal of Chemistry 68(9), 1359-1364 (2015). (doi:10.1071/CH15196) 11.3.1

138. Raoof, Fatemeh, Maryam Boostanizadeh, Ahmadrez Esmaeilbeig, S. Masou Nabavizadeh, Reza bab Aghakhanpour, K.B. Ghiassi, Marilyn Olmstead, and A.L. Balch, “Reactivity comparison of five-and six-membered cyclometalated platinum(II) complexes in oxidative addition reactions,” RSC Adv. 5(103), 85111-85121 (2015). (doi:10.1039/C5RA17421J) 11.3.1

139. Roberts, R.J., D. Le, and D.B. Leznoff, “Controlling intermolecular aurophilicity in emissive dinuclear Au(I) materials and their luminescent response to ammonia vapour,” Chem. Commun. 51(76), 14299-14302 (2015). (doi:10.1039/C5CC05277G) 11.3.1

140. Siman, P., C.A. Trickett, H. Furukawa, and O.M. Yaghi, “L-Aspartate Links for Stable Sodium Metal-Organic Frameworks,” Chem. Commun. 51(98), 17463-17466 (2015). (doi:10.1039/C5CC07578E) 11.3.1

141. Solis-Ibarra, D., C. Smith, and H.I. Karunadasa, “Post-synthetic halide conversion and selective halogen capture in hybrid perovskites,” Chem. Sci. 6(7), 4054-4059 (2015). (doi:10.1039/c5sc01135c) 11.3.1, 12.2.2

142. Stevenson, S., H.R. Thompson, K.D. Arvola, K.B. Ghiassi, M.M. Olmstead, and A.L. Balch, “Isolation of CeLu2N@Ih-C80 through a Non-Chromatographic, Two-Step Chemical Process and Crystallographic Characterization of the Pyramidalized CeLu2N within the Icosahedral Cage,” Chemistry - A European Journal 21(29), 10362-10368 (2015). (doi:10.1002/chem.201500915) 11.3.1

143. Thomas, K.E., H. Vazquez-Lima, Y. Fang, Y. Song, K.J. Gagnon, C.M. Beavers, K.M. Kadish, and A. Ghosh, “Ligand Noninnocence in Coinage Metal Corroles: A Silver Knife-Edge,” Chemistry - A European Journal 21(47), 16839-16847 (2015). (doi:10.1002/chem.201502150) 11.3.1

144. Thomas Muthiah, K.A., G. Durgaprasad, Z-.L. Xie, O.M. Williams, C. Joseph, V.M. Lynch, and M.J. Rose, “Mononuclear Iron(II) Dicarbonyls Derived from NNS Ligands - Structural Models Related to a "Pre-Acyl" Active Site of Mono-Iron (Hmd) Hydrogenase,” European Journal of Inorganic Chemistry 2015(10), 1675-1691 (2015). (doi:10.1002/ejic.201403013) 11.3.1

145. Thomassen, Ivar K., Hugo Vazquez-Lima, K.J. Gagnon, and Abhik Ghosh, “Octaiodoporphyrin,” Inorganic Chemistry 54(23), 11493-11497 (2015). (doi:10.1021/acs.inorgchem.5b02127) 11.3.1

146. Thompson, J.R., M.J. Katz, V.E. Williams, and D.B. Leznof, “Structural Design Parameters for Highly Birefringent Coordination Polymers,” Inorganic Chemistry 54(13), 6462-6471 (2015). (doi:10.1021/acs.inorgchem.5b00749) 11.3.1

147. Tian, Guoxin, D.K. Shuh, C.M. Beavers, and S.J. Teat, “A structural and spectrophotometric study on the complexation of Am(III) with TMOGA in comparison with the extracted complex of DMDOOGA ,” Dalton Trans. 44(42), 18469-18474 (2015). (doi:10.1039/C4DT02882A) 11.3.1

148. Tomiyasu, H., J-L. Zhao, X-L. Ni, X. Zeng, M.R. Elsegood, B. Jones, C. Redshaw, S.J. Teat, and T. Yamato, “Positive and negative allosteric effects for thiacalix[4]arene-based receptors having urea and crown-ether moieties,” RSC Adv. 5(19), 14747-14755 (2015). (doi:10.1039/C4RA15905E) 11.3.1

149. Tong, L., A. Kopecky, R. Zong, K.J. Gagnon, M.S. G. Ahlquist, and R.P. Thummel, “Light-Driven Proton Reduction in Aqueous Medium Catalyzed by a Family of Cobalt Complexes with Tetradentate Polypyridine-Type Ligands,” Inorganic Chemistry 54(16), 7873-7884 (2015). (doi:10.1021/acs.inorgchem.5b00915) 11.3.1

150. Trickett, C.A., K.J. Gagnon, S. Lee, F. Gandara, H-B. Bürgi, and O.M. Yaghi, “Definitive Molecular Level Characterization of Defects in UiO-66 Crystals,” Angewandte Chemie International Edition 54(38), 11162-11167 (2015). (doi:10.1002/anie.201505461) 11.3.1

151. Tsai, Y-.J., W. Lo, and Q. Zhao, “Ligand Control in Nuclearity of Zn Complexes Supported by Formamidinates,” Polyhedron 97, 39-46 (2015). (doi:10.1016/j.poly.2015.05.003) 11.3.1

152. Tsai, Y.-J., M.B. Pastor, W. Lo, and Q. Zhao, “Synthesis and structural analysis of formamidinate-supported Mg complexes,” Inorganica Chimica Acta 434, 85-91 (2015). (doi:10.1016/j.ica.2015.05.005) 11.3.1

153. Velasco, V., D. Aguilà, L.A. Barrios, I. Borilovic, O. Roubeau, J. Ribas-Ariño, M. Fumanal, S.J. Teat, and G. Aromi, “New coordination features; a bridging pyridine and the forced shortest non-covalent distance between two CO32- species,” Chem. Sci. 6(1), 123-131 (2015). (doi:10.1039/C4SC02491E) 11.3.1

154. Wex, B., A.O. El-Ballouli, A. Vanvooren, U. Zschieschlang, H. Klauk, J.A. Krause, J. . Cornil, and B.R. Kaafarani, “Crystalline TQPP as p-Type Semiconductor: X-ray Crystallographic Investigation, OTFT device, and Computational Analysis of Transport Properties,” J. Mol. Struct. 1093, 144-149 (2015). (doi:10.1016/j.molstruc.2015.03.057) 11.3.1

155. Whitehead, G., S.J. Teat, K.J. Gagnon, G.A. Timco, and R. Winpenny, “An extended framework of cages formed of pre-synthesised and functionalised heterometallic cages,” Chem. Commun. 51(17), 3533-3536 (2015). (doi:10.1039/C4CC10035B) 11.3.1

156. Wickramasinghe, Lanka D., Rongwei Zhou, Ruifa Zong, Pascal Vo, K.J. Gagnon, and R.P. Thummel, “Iron Complexes of Square Planar Tetradentate Polypyridyl-type Ligands as Catalysts for Water Oxidation,” Journal of the American Chemical Society 137(41), 13260-13263 (2015). (doi:10.1021/jacs.5b08856) 11.3.1

157. Williams, D.E., E.A. Dolgopolova, P.J. Pellechia, A. Palukoshka, T.J. Wilson, R. Tan, J.M. Maier, A.B. Greytak, M.D. Smith, J.A. Krause, and N.B. Shustova, “Mimic of the Green Fluorescent Protein β-Barrel: Photophysics and Dynamics of Confined Chromophores Defined by a Rigid Porous Scaffold,” Journal of the American Chemical Society 137(6), 2223-2226 (2015). (doi:10.1021/ja5131269) 11.3.1

158. Xiong, K., W. Liu, S.J. Teat, L. An, H. Wang, T.J. Emge, and J. Li, “New Hybrid Lead Iodides: From One-dimensional Chain to Two-dimensional Layered Perovskite Structure,” J. Solid State Chem. 230, 143-148 (2015). (doi:10.1016/j.jssc.2015.07.004) 11.3.1

159. Xu, Feng, H. Wang, S.J. Teat, W. Liu, Qibin Xia, Zhong Li, and Jing Li, “Synthesis, structure and enhanced photoluminescence properties of two robust, water stable calcium and magnesium coordination networks,” Dalton Trans. 44(47), 20459-20463 (2015). (doi:10.1039/C5DT03705K) 11.3.1

160. Yuan, S., T.-F Liu, D. Feng, J. Tian, K. Wang, J. Qin, Q. Zhang, Y.-P Chen, M. Bosch, L. Zou, S.J. Teat, S.J. Dalgarno, and H.-C Zhou, “A Single Crystalline Porphyrinic Titanium Metal-Organic Framework,” Chem. Sci. 6, 3926-3930 (2015). (doi:10.1039/C5SC00916B) 11.3.1

161. Zhang, Y., K.B. Ghiassi, Q. Deng, N.A. Samoylova, M.M. Olmstead, A.L. Balch, and A.A. Popov, “Synthesis and structure of LaSc2N@Cs(hept)-C80 with one heptagon and thirteen pentagons,” Angewandte Chemie International Edition 54(2), 495-499 (2015). (doi:10.1002/anie.201409094) 11.3.1

162. Zhang, Y.-B., H. Furukawa, N. Ko, W. Nie, H.J. Park, S. Okajima, K.E. Cordova, H. Deng, J. Kim, and O.M. Yaghi, “Introduction of Functionality, Selection of Topology, and Enhancement of Gas Adsorption in Multivariate Metal-Organic Framework-177,” Journal of the American Chemical Society 137(7), 2641-2650 (2015). (doi:10.1021/ja512311a) 11.3.1

163. Zhao, J.-L., H. Tomiyasu, X.-L. Ni, X. Zeng, M.R. Elsegood, C. Redshaw, S. Rahman, P.E. Georghiou, S.J. Teat, and T. Yamato, “The first study about the relationship between the extractability of thiacalix[4]arene derivatives and the position of the coordination binding sites,” Organic & Biomolecular Chemistry 13(11), 3476-3483 (2015). (doi:10.1039/C4OB02393E) 11.3.1

164. Zhao, D., J.A. Krause, and W.B. Connick, “Platinum(II) Monomer and Dimer Complexes with a Bis(oxazolinyl)phenyl Pincer Ligand,” Inorganic Chemistry 54(17), 8339-8347 (2015). (doi:10.1021/acs.inorgchem.5b01022) 11.3.1


165. Adhikary, A., J.R. Schwartz, L.M. Meadows, J.A. Krause, and H. Guan, “Interaction of alkynes with palladium POCOP-pincer hydride complexes and its unexpected relation to palladium-catalyzed hydrogenation of alkynes,” Inorganic Chemistry Frontiers 1(1), 71-82 (2014). (doi:10.1039/c3qi00073g) 11.3.1

166. Aguila, D., L.A. Barrios, V. Velasco, O. Roubeau, A. Repollés, P.J. Alonso, J. Sesé, S.J. Teat, F. Luis, and G. Aromi, “Heterodimetallic [LnLn'] Lanthanide Complexes: Toward a Chemical Design of Two-Qubit Molecular Spin Quantum Gates,” Journal of the American Chemical Society 136(40), 14215-14222 (2014). (doi:10.1021/ja507809w) 11.3.1

167. Aidoudi, F., L. Downie, R.E. Morris, M. De Vries, and P. Lightfoot, “A hybrid vanadium fluoride with structurally isolated S = 1 kagome layers,” Dalton Trans. 43(17), 6304-6307 (2014). (doi:10.1039/C4DT00452C) 11.3.1

168. Aidoudi, F.H., C. Black, K.S.A. Arachchige, A.M.Z. Slawin, R.E. Morris, and P. Lightfoot, “Structural diversity in hybrid vanadium(IV) oxyfluorides based on a common building block,” Dalton Trans. 43(2), 568-575 (2014). (doi:10.1039/C3DT52385C) 11.3.1

169. Al-Rawashdeh, N.A.F., S. Chatterjee, J.A. Krause, and W.B. Connick, “Ruthenium Bis-Diimine Complexes with a Chelating Thioether Ligand: Delineating 1,10-Phenanthrolinyl and 2,2'-Bipyridyl Ligand Substituent Effects,” Inorganic Chemistry 53(1), 294-307 (2014). (doi:10.1021/ic4022454) 11.3.1

170. Albrett, A.M., K.E. Thomas, S. Maslek, A. M≈Çodzianowska, J. Conradie, C.M. Beavers, A. Ghosh, and P.J. Brothers, “Mono- and Diboron Corroles: Factors Controlling Stoichiometry and Hydrolytic Reactivity,” Inorganic Chemistry 53(11), 5486-5493 (2014). (doi:10.1021/ic500114k) 11.3.1

171. Alemayehu, A.B., H. Vazquez-Lima, C.M. Beavers, K.J. Gagnon, J. Bendix, and A. Ghosh, “Platinum corroles,” Chem. Commun. 50(76), 11093-11096 (2014). (doi:10.1039/C4CC02548B) 11.3.1

172. Alemayehu, A.B., K.J. Gagnon, J. Terner, and A. Ghosh, “Oxidative Metalation as a Route to Size-Mismatched Macrocyclic Complexes: Osmium Corroles,” Angewandte Chemie International Edition 53(52), 14411-14414 (2014). (doi:10.1002/anie.201405890) 11.3.1

173. Baranová, Z., H. Amini, N. Bhuvanesh, and J.A. Gladysz, “Rotaxanes Derived from Dimetallic Polyynediyl Complexes: Extended Axles and Expanded Macrocycles,” Organometallics 33(23), 6746-6749 (2014). (doi:10.1021/om501026u) 11.3.1

174. Barrios, L.A., E. Peyrecave-Lleixà, G.A. Craig, O. Roubeau, S.J. Teat, and G. Aromi, “Unusual Crystal Packing in a Family of [Fe2,6-bis(pyrazol-3-yl)pyridine2]2+ Compounds and the Effect on the Occurrence of Spin Crossover and Its Cooperative Character,” European Journal of Inorganic Chemistry 2014(35), 6013-6021 (2014). (doi:10.1002/ejic.201403009) 11.3.1

175. Bhattacharya, P., J.A. Krause, and H. Guan, “Activation of Dihydrogen and Silanes by Cationic Iron Bis(phosphinite) Pincer Complexes,” Organometallics 33(21), 6113-6121 (2014). (doi:10.1021/om500758j) 11.3.1

176. Bowles, F.L., M.M. Olmstead, and A.L. Balch, “Preparation and Crystallographic Characterization of C60η1-Ru(CO)2(η5-C5H5)2: A Locally Crowded Organometallic Fullerene Without the Usual η2-Bonding,” Journal of the American Chemical Society 136(9), 3338-3341 (2014). (doi:10.1021/ja4120677) 11.3.1

177. Brissos, R.F., E. Torrents, F.M. dos Santos Mello, W. Carvalho Pires, E. de Paula Silveira-Lacerda, A. Caballero, A. Caubet, C. Massera, O. Roubeau, S.J. Teat, and P. Gamez, “Highly Cytotoxic DNA-Interacting Copper(II) Coordination Compounds ,” Metallomics 6(10), 1853-1868 (2014). (doi:10.1039/C4MT00152D) 11.3.1

178. Cai, S-L., Y-B. Zhang, A.B. Pun, B. He, J. Yang, F. Toma, I.D. Sharp, O.M. Yaghi, J. Fan, S-R. Zheng, W-G. Zhang, and Y. Liu, “Tunable Electrical Conductivity in Oriented Thin Films of Tetrathiafulvalene-Based Covalent Organic Framework,” Chem. Sci. 5(12), 4693-4700 (2014). (doi:10.1039/C4SC02593H) 7.3.3, 11.3.1

179. Chen, J., Q.-F. Zhang, T.A. Bonaccorso, P.G. Williard, and L.-S. Wang, “Controlling Gold Nanoclusters by Diphosphine Ligands,” Journal of the American Chemical Society 136(1), 92-95 (2014). (doi:10.1021/ja411061e) 11.3.1

180. Chen, J., Q-F. Zhang, P.G. Williard, and L-S. Wang, “Synthesis and Structure Determination of a New Au20 Nanocluster Protected by Tripodal Tetraphosphine Ligands,” Inorganic Chemistry 53(8), 3932-3934 (2014). (doi:10.1021/ic500562r) 11.3.1

181. Chiesa, A., G. Whitehead, S. Carretta, L. Carthy, G.A. Timco, S.J. Teat, G. Amoretti, E. Pavarini, R. Winpenny, and P. Santini, “Molecular nanomagnets with switchable coupling for quantum simulation,” Scientific Reports 4, 7423 (2014). (doi:10.1038/srep07423) 11.3.1

182. Clegg, W., and J.M. Holcroft, “Structural variation in mellitate complexes of first row transition metals: what chance for design?,” Crystal Growth 14(12), 6282-6293 (2014). (doi:10.1021/cg5009736) 11.3.1

183. Collins, C.G., A.T. Johnson, R.D. Connell, R.A. Nelson, I. Murgu, A.G. Oliver, and B.D. Smith, “Effect of 1,3-adamantane bridging units within the surrounding macrocycle of squaraine rotaxanes,” New J. Chem. 38(8), 3992-3998 (2014). (doi:10.1039/C4NJ00726C) 11.3.1

184. Copping, R., B. Jeon, C.D. Pemmaraju, S. Wang, S.J. Teat, M.R. Janousch, T. Tyliszczak, A. Canning, N. Gr√∏nbech-Jensen, D. Prendergast, and D.K. Shuh, “Toward Equatorial Planarity about Uranyl: Synthesis and Structure of Tridentate Nitrogen-Donor UO22+ Complexes,” Inorganic Chemistry 53(5), 2506-2515 (2014). (doi:10.1021/ic4026359) 11.3.1,

185. Costa, J.S., S. Rodríguez-Jiménez, G.A. Craig, B. Barth, C.M. Beavers, S.J. Teat, and G. Aromi, “Three-Way Crystal-to-Crystal Reversible Transformation and Controlled Spin Switching by a Nonporous Molecular Material,” Journal of the American Chemical Society 136(10), 3869-3874 (2014). (doi:10.1021/ja411595y) 11.3.1

186. Coughlin, J.L., A. Zhugayevych, R.C. Bakus, T.S. van der Poll, G.C. Welch, S.J. Teat, and G. Bazan, “A Combined Experimental and Theoretical Study of Conformational Preferences of Molecular Semiconductors,” Journal of Physical Chemistry C 118(29), 15610-15623 (2014). (doi:10.1021/jp506172a) 11.3.1

187. Craig, G.A., J. Sanchez Costa, O. Roubeau, S.J. Teat, H.J. Shepherd, M.C. Lopes, G. Molnár, A. Bousseksou, and G. Aromi, “High-temperature photo-induced switching and pressure-induced transition in a cooperative molecular spin-crossover material,” Dalton Trans. 43(2), 729-737 (2014). (doi:10.1039/c3dt52075g) 11.3.1

188. Craig, G.A., M. Schütze, D. Aguilà, O. Roubeau, J. Ribas-Ariño, S. Vela, S.J. Teat, and G. Aromi, “Linear or Cyclic Clusters of Cu(II) with a Hierarchical Relationship,” Inorganic Chemistry 53(7), 3290-3297 (2014). (doi:10.1021/ic402647t) 11.3.1

189. Demir, S., M. Nippe, M.J. Gonzalez, and J.R. Long, “Exchange Coupling and Magnetic Blocking in Dilanthanide Complexes Bridged by the Multi-Electron Redox-Active Ligand 2,3,5,6-Tetra(2-pyridyl)pyrazine ,” Chem. Sci. 5(12), 4701-4711 (2014). (doi:10.1039/C4SC02154A) 11.3.1

190. Dotsenko, I.A., Q. Zhao, A.H. Franz, P. Batoon, N.M. Samoshina, and V.V. Samoshin, “Convenient synthesis of 1,3-dithiolane-2-thiones: cyclic trithiocarbonates as conformational locks,” ARKIVOC 2014(5), 16-41 (2014). (doi:10.3998/ark.5550190.p008.671) 11.3.1

191. Duros, V., H. Sartzi, S.J. Teat, Y. Sanakis, O. Roubeau, and S.P. Perlepes, “Tris2,4-bis(2-pyridyl)-1,3,5-triazapentanedienatomanganese(III), a complex derived from a unique metal ion-assisted transformation of pyridine-2-amidoxime,” Inorg Chem Comm 50, 117-121 (2014). (doi:10.1016/j.inoche.2014.10.017) 11.3.1

192. Easterday, C.C., L.R. Dedon, M. Zeller, and C.M. Oertel, “Helical ∞1[Pb2O] Chains in Polymorphs of Pb2O(C6H5COO)2,” Crystal Growth 14(4), 2048-2055 (2014). (doi:10.1021/cg500177f) 11.3.1

193. Esteban, J., M. Font-Bardia, J. Costa, S.J. Teat, and A. Escuer, “New Topologies in Pentanuclear Nickel/Oximato Clusters: Structural and Magnetic Characterization,” Inorganic Chemistry 53(6), 3194-3203 (2014). (doi:10.1021/ic500057j) 11.3.1

194. Faraj, F.L., H. Khaledi, Y. Morimoto, S. Itoh, M.M. Olmstead, and H.M. Ali, “A Tetradentate β-Diiminate Ligand Containing Phenolate Substituents: Flexivalent Coordination to MnIII, CoIII, NiII and CuII,” European Journal of Inorganic Chemistry 2014(33), 5752-5759 (2014). (doi:10.1002/ejic.201402745) 11.3.1

195. Fowler, D.A., C.R. Pfeiffer, S.J. Teat, G.A. Baker, and J.L. Atwood, “Solvent-modulated formation of "Pac-man" and capsular host-guest bilayers from a dicationic ionic liquid and C-butylpyrogallol[4]arene,” Crystal Growth 14(8), 4199-4204 (2014). (doi:10.1021/cg500793z) 11.3.1

196. Fowler, D.A., C.R. Pfeiffer, S.J. Teat, C.M. Beavers, G.A. Baker, and J.L. Atwood, “Illuminating host-guest cocrystallization between pyrogallol[4]arenes and the ionic liquid 1-ethyl-3-methylimidazolium ethylsulfate,” CrystEngComm 16(27), 6010-6022 (2014). (doi:10.1039/C4CE00359D) 11.3.1

197. Furukawa, H., F. Gandara, Y-B. Zhang, J. Jiang, W.L. Queen, M.R. Hudson, and O.M. Yaghi, “Water Adsorption in Porous Metal-Organic Frameworks and Related Materials,” Journal of the American Chemical Society 136(11), 4369-4381 (2014). (doi:10.1021/ja500330a) 11.3.1

198. Gagnon, K.J., S.J. Teat, Z. Beal, A.M. Embry, M.E. Strayer, and A. Clearfield, “Isoreticular investigation into the formation of four new zinc alkylbisphosphonate families,” Crystal Growth 14(7), 3612-3622 (2014). (doi:10.1021/cg500568e) 11.3.1

199. Gandara, F., H. Furukawa, S. Lee, and O.M. Yaghi, “High Methane Storage Capacity in Aluminum Metal-Organic Frameworks,” Journal of the American Chemical Society 136(14), 5271-5274 (2014). (doi:10.1021/ja501606h) 11.3.1

200. Ghiassi, K.B., M.M. Olmstead, and A.L. Balch, “Gadolinium-Containing Endohedral Fullerenes: Structures and Function as Magnetic Resonance Image (MRI) Agents,” Dalton Trans. 43(20), 7346-7358 (2014). (doi:10.1039/C3DT53517G) 11.3.1

201. Ghiassi, K.B., S.Y. Chen, P. Prinz, A. de Meijere, M.M. Olmstead, and A.L. Balch, “Cocrystallization of C60 or C70 with the Bowl- Shaped Hydrocarbon Hexakis((E)-3,3-Dimethyl-1- butenyl)benzene to Form Chains of Clamshell Assemblies,” Crystal Growth 14(8), 4005-4010 (2014). (doi:10.1021/cg500603c) 11.3.1

202. Gong, Q., Z. Hu, B.J. Deibert, T.J. Emge, S.J. Teat, D. Banerjee, B. Mussman, N.D. Rudd, and J. Li, “Solution processable MOF yellow phosphor with exceptionally high quantum efficiency,” Journal of the American Chemical Society 136(48), 16724-16727 (2014). (doi:10.1021/ja509446h) 11.3.1

203. Hatcher, L.E., E.J. Bigos, M.J. Bryant, E.M. MacCready, T.P. Robinson, L.K. Saunders, L.H. Thomas, C.M. Beavers, S.J. Teat, J. Christensen, and P.R. Raithby, “Thermal and photochemical control of nitro‚Äìnitrito linkage isomerism in single-crystals of [Ni(medpt)(NO2)(η2-ONO)],” CrystEngComm 16, 8263-8271 (2014). (doi:10.1039/C4CE00675E) 11.3.1

204. He, B., A.B. Pun, L.M. Klivansky, A. McGough, Y. Ye, J. Zhu, J. Guo, S.J. Teat, and Y. Liu, “Thiophene Fused Azacoronenes: Regioselective Synthesis, Self-Organization, Charge Transport, and Its Incorporation in Conjugated Polymers,” Chem. Mater. 26(13), 3920-3927 (2014). (doi:10.1021/cm5018272), 7.3.3, 11.3.1,

205. Jiang, J., F. Gandara, Y-B. Zhang, K. Na, O.M. Yaghi, and W.G. Klemperer, “Superacidity in Sulfated Metal-Organic Framework-808,” Journal of the American Chemical Society 136(37), 12844-12847 (2014). (doi:10.1021/ja507119n) 11.3.1

206. Jin, P., H. Kumari, S. Kennedy, C.L. Barnes, S.J. Teat, S.J. Dalgarno, and J.L. Atwood, “Structural alteration of the metal-organic pyrogallol[4]arene nano-capsule motif by incorporation of large metal centres,” Chem. Commun. 50(34), 4508-4510 (2014). (doi:10.1039/C4CC00202D) 11.3.1

207. Kennedy, S., C.M. Beavers, S.J. Teat, and S.J. Dalgarno, “Salt formation affects the conformational and assembly properties of p-carboxylatocalix[4]arenes,” CrystEngComm 16, 3712-3717 (2014). (doi:10.1039/c3ce42523a) 11.3.1

208. Keter, F.K., I.A. Guzei, M. Nell, W.E. van Zyl, and J. Darkwa, “Phosphinogold(I) Dithiocarbamate Complexes: Effect of the Nature of Phosphine Ligand on Anticancer Properties,” Inorganic Chemistry 53(4), 2058-2067 (2014). (doi:10.1021/ic4025926) 11.3.1

209. Khaledi, H., M.M. Olmstead, T. Fukuda, and H.M. Ali, “Heterometallic PdII-NiII Complexes with meso-Substituted Dibenzotetraaza[14]annulene: Double C-H Bond Activation and Formation of a Rectangular Tetradibenzotetraaza[14]annulene,” Inorganic Chemistry 53(21), 11348-11350 (2014). (doi:10.1021/ic5019828) 11.3.1

210. Klonowski, P., J.C. Goloboy, F.J. Uribe-Romo, F. Sun, L. Zhu, F. Gandara, C. Wills, R.J. Errington, O.M. Yaghi, and W.G. Klemperer, “Synthesis and Characterization of the Platinum-Substituted Keggin Anion α-H2SiPtW11O404-,” Inorganic Chemistry 53(24), 13239-13246 (2014). (doi:10.1021/ic502617k) 11.3.1

211. Knichal, J.V., W.J. Gee, A.D. Burrows, P.R. Raithby, S.J. Teat, and C.C. Wilson, “A facile single crystal to single crystal transition with significant structural contraction on desolvation,” Chem. Commun. 50(92), 14436-14439 (2014). (doi:10.1039/C4CC06587E) 11.3.1

212. Krause, J.A., D. Zhao, S. Chatterjee, R. Falcon, K. Stoltz, J.C. Warren, S.E. Wiswell, W.B. Connick, and S.N. Collins, “In-house and Synchrotron X-ray Diffraction Studies of 2-Phenyl-1,10-Phenanthroline, Protonated Salts, Complexes with Gold(III) and Copper(II), and an Orthometallation Product with Palladium(II),” Acta Crystallographica, Section C: Crystal Structure Communications 70(3), 260-266 (2014). (doi:10.1107/S2053229614001843) 11.3.1

213. Kumari, H., P. Jin, S.J. Teat, C.L. Barnes, S.J. Dalgarno, and J.L. Atwood, “Entrapment of Elusive Guests within Metal-Seamed Nanocapsules,” Angewandte Chemie International Edition 53(48), 13088-13092 (2014). (doi:10.1002/anie.201406776) 11.3.1

214. Kumari, H., P. Jin, S.J. Teat, C.L. Barnes, S.J. Dalgarno, and J.L. Atwood, “Strong cation¬∑¬∑¬∑π interactions promote the capture of metal ions within metal-seamed nanocapsule,” Journal of the American Chemical Society 136(49), 17002-17005 (2014). (doi:10.1021/ja5107354) 11.3.1

215. Lai, H., J.C. Gallucci, and C. Li, “N-[2-(9H-Carbazol-9-yl)ethyl]-4-(methyl-sulfonyl)aniline,” Acta Crystallogr., Sect. E: Struct. Rep. Onlline 70(3), o332 (2014). (doi:10.1107/S1600536814003614) 11.3.1

216. McKenzie, L. ., T.O. Zaikova, and J. Hutchison, “Structurally Similar Triphenylphosphine-Stabilized Undecagolds, Au11(PPh3)7Cl3 and [Au11(PPh3)8Cl2]Cl, Exhibit Distinct Ligand Exchange Pathways with Glutathione,” Journal of the American Chemical Society 136(38), 13426-13435 (2014). (doi:10.1021/ja5075689) 11.3.1

217. McKinlay, A.C., P.K. Alan, C.L. Renouf, M.J. Duncan, P.S. Wheatley, S.J. Warrender, D. Dawson, S.E. Ashbrook, B. Gil, B. Marszalek, T. Düren, J.J. Williams, C. Charrier, D.K. Mercer, S.J. Teat, and R.E. Morris, “Multirate delivery of multiple therapeutic agents from metal-organic frameworks,” APL Materials 2(12), 124108 (2014). (doi:10.1063/1.4903290) 11.3.1

218. Mossine, A.V., C.M. Mayhan, D.A. Fowler, S.J. Teat, C.A. Deakyne, and J.L. Atwood, “Zinc-seamed pyrogallol[4]arene dimers as structural components in a two-dimensional MOF,” Chem. Sci. 5(6), 2297-2303 (2014). (doi:10.1039/C4SC00462K) 11.3.1

219. Mukherjee, T., C. Ganzmann, N. Bhuvanesh, and J.A. Gladysz, “Syntheses of Enantiopure Bifunctional 2-Guanidinobenzimidazole Cyclopentadienyl Ruthenium Complexes: Highly Enantioselective Organometallic Hydrogen Bond Donor Catalysts for Carbon-Carbon Bond Forming Reactions,” Organometallics 33(23), 6723-6737 (2014). (doi:10.1021/om500705s) 11.3.1

220. Nassirinia, N., S. Amani, S.J. Teat, O. Roubeau, and P. Gamez, “Enhancement of spin-crossover cooperativity mediated by lone pair-π interactions and halogen bonding,” Chem. Commun. 50(8), 1003-1005 (2014). (doi:10.1039/c3cc48334g) 11.3.1

221. Neti, V.S.P. , M.R. Ceron, A. Duarte-Ruiz, M.M. Olmstead, A.L. Balch, and L. Echegoyen, “High-yield, regiospecific bis-functionalization of C70 using a Diels-Alder reaction in molten anthracene,” Chem. Commun. 50(73), 10584-10587 (2014). (doi:10.1039/C4CC02472A) 11.3.1

222. Nguyen, N.T T., H. Furukawa, F. Gandara, H.T. Nguyen, K.E. Cordova, and O.M. Yaghi, “Selective Capture of Carbon Dioxide under Humid Conditions by Hydrophobic Chabazite-Type Zeolitic Imidazolate Frameworks,” Angewandte Chemie International Edition 53(40), 10645-10648 (2014). (doi:10.1002/anie.201403980) 11.3.1

223. O'Bannon, E.F., C.M. Beavers, and Q. Williams, “Trona at extreme conditions: A pollutant-sequestering material at high pressures and low temperatures,” Am. Mineral. 99(10), 1973-1984 (2014). (doi:10.2138/am-2014-4919) 11.3.1, 12.2.2, 1.4

224. Ortiz, A.U., A. Boutin, K.J. Gagnon, A. Clearfield, and F-X. Coudert, “Remarkable Pressure Responses of Metal-Organic Frameworks: Proton Transfer and Linker Coiling in Zinc Alkyl Gates,” Journal of the American Chemical Society 136(32), 11540-11545 (2014). (doi:10.1021/ja5060059) 11.3.1

225. Pemmaraju, C.D., R. Copping, S. Wang, M.R. Janousch, S.J. Teat, T. Tyliszcak, A. Canning, D.K. Shuh, and D. Prendergast, “Bonding and Charge Transfer in Nitrogen-Donor Uranyl Complexes: Insights from NEXAFS Spectra,” Inorganic Chemistry 53(21), 11415-11425 (2014). (doi:10.1021/ic501107a), 11.3.1

226. Pfeiffer, C.R., D.A. Fowler, S.J. Teat, and J.L. Atwood, “Cocrystallization of pyrogallol[4]arenes with 1-(2-pyridylazo)-2-naphthol,” CrystEngComm 16(47), 10760-10773 (2014). (doi:10.1039/c4ce01768d) 11.3.1

227. Pineda, E.M., F. Tuna, Y.-Z. Zheng, S.J. Teat, R. Winpenny, J. Schnack, and E.J.L. McInnes, “Iron Lanthanide Phosphonate Clusters: Fe6Ln6P6 Wells-Dawson-like Structures with D3d Symmetry,” Inorganic Chemistry 53(6), 3032-3038 (2014). (doi:10.1021/ic402839q) 11.3.1

228. Pun, A.B., K.J. Gagnon, L.M. Kilvansky, S.J. Teat, Z-T. Li, and Y. Liu, “Solvent-driven selective π-cation templating in dynamic assembly of interlocked molecules,” Organic Chemistry Frontiers 1(2), 167-175 (2014). (doi:10.1039/C3QO00074E) 11.3.1

229. Queen, W.L., M.R. Hudson, E.D. Bloch, J.A. Mason, M.I. Gonzalez, J.S. Lee, D. Gygi, J.D. Howe, K. Lee, T.A. Darwish, M. James, V.K. Peterson, S.J. Teat, B. Smit, J.B. Neaton, J.R. Long, and C.M. Brown, “Comprehensive study of carbon dioxide adsorption in the metal-organic frameworks M2(dobdc) (M = Mg, Mn, Fe, Co, Ni, Cu, Zn),” Chem. Sci. 5(12), 4569-4581 (2014). (doi:10.1039/C4SC02064B) 11.3.1

230. Rajam, S., A.V. Jadhav, Q. Li, S.K. Sarkar, P.N. D. Singh, A. Rohr, T.C. S. Pace, R. Li, J.A. Krause, C. Bohne, B.S. Ault, and A.D. Gudmundsdottir, “Triplet Sensitized Photolysis of a Vinyl Azide: Direct Detection of a Triplet Vinyl Azide and Nitrene,” The Journal of Organic Chemistry 79(19), 9325-9334 (2014). (doi:10.1021/jo501898p) 11.3.1

231. Redshaw, C., O. Rowe, M.R. Elsegood, L. Horsburgh, and S.J. Teat, “Pillared two-dimensional metal-organic frameworks based on a lower-rim acid appended calix[4]arene.,” Crystal Growth 14(1), 270-277 (2014). (doi:10.1021/cg4014703) 11.3.1

232. Ren, Y., D.D. Lantvit, Y. Deng, R. Kanagasabai, J.C. Gallucci, T.N. Ninh, H-B. Chai, D.D. Soejarto, J.R. Fuchs, J.C. Yalowich, J. Yu, S.M. Swanson, and A.D. Kinghorn, “Potent Cytotoxic Arylnaphthalene Lignan Lactones from Phyllanthus poilanei,” Journal of Natural Products 77(6), 1494-1504 (2014). (doi:10.1021/np5002785) 11.3.1

233. Rodríguez-Velamazán, J.A., O. Fabelo, C.M. Beavers, E. Natividad, M. Evangelisti, and O. Roubeau, “A Multifunctional Magnetic Material under Pressure,” Chemistry - A European Journal 20(26), 7956-7961 (2014). (doi:10.1002/chem.201402046) 11.3.1

234. Rood, J., A.L. Huttenstine, Z. Schmidt, M. White, and A.G. Oliver, “Linear alkaline earth metal phosphinate coordination polymers: synthesis and structural characterization,” Acta Crystallographica, Section B: Structural Science B70, 602-607 (2014). (doi:10.1107/S2052520614004247) 11.3.1

235. Rood, J.A., S. Boyer, and A.G. Oliver, “One- and two-dimensional CdII coordination polymers incorporating organophosphinate ligands,” Acta Crystallographica, Section C: Crystal Structure Communications C70(11), 1069-1074 (2014). (doi:10.1107/S2053229614022256) 11.3.1

236. Roubeau, O., G. Lorusso, S.J. Teat, and M. Evangelisti, “Cryogenic magneto-caloric effect and magneto-structural correlations in carboxylate-bridged Gd(III) compounds,” Dalton Trans. 43, 110502-11509 (2014). (doi:10.1039/C4DT00697F) 11.3.1

237. Scheele, M., D.A. Hanifi, D. Zherebetskyy, S. Chourou, S. Axnanda, B.J. Rancatore, K. Thorkelsson, T. Xu, Z. Liu, L-W. Wang, Y. Liu, and A.P. Alivisatos, “PbS Nanoparticles Capped with Tetrathiafulvalenetetracarboxylate: Utilizing Energy Level Alignment for Efficient Carrier Transport,” ACS Nano 8(3), 2532-2540 (2014). (doi:10.1021/nn406127s) 7.3.3, 11.3.1

238. Smith, I.C., E.T. Hoke, D. Solis-Ibarra, M. McGehee, and H.I. Karunadasa, “A layered hybrid perovskite solar-cell absorber with enhanced moisture stability,” Angewandte Chemie International Edition 53(42), 11232-11235 (2014). (doi:10.1002/anie.201406466) 11.3.1

239. Svitova, A.L., K.B. Ghiassi, C. Schlesier, K. Junghans, Y. Zhang, M.M. Olmstead, A.L. Balch, L. Dunsch, and A.A. Popov, “Endohedral fullerene with m3-carbido ligand and titanium-carbon double bond stabilized inside a carbon cage,” Nature Communications 5, 3568 (2014). (doi:10.1038/ncomms4568) 11.3.1

240. Tian, G., S.J. Teat, and L. Rao, “Structural and Thermodynamic Study of the Complexes of Nd(III) with N,N,N',N'-Tetramethyl-3-oxa-glutaramide and the Acid Analogues,” Inorganic Chemistry 53(18), 9477-9485 (2014). (doi:10.1021/ic5004484) 11.3.1

241. Tian, Y., P.K. Allan, C.L. Renouf, X. He, L.J. McCormick, and R.E. Morris, “Synthesis and structural characterization of a single-crystal to single-crystal transformable coordination polymer,” Dalton Trans. 43, 1519-1523 (2014). (doi:10.1039/C3DT52579A) 11.3.1

242. Tian, G., S.J. Teat, and L. Rao, “Formation, structure, and optical properties of PuO22+ complexes with N,N,N',N'-tetramethyl-3-oxa-glutaramide,” Inorg Chem Comm 44, 32-36 (2014). (doi:10.1016/j.inoche.2014.02.050) 11.3.1

243. van der Poll, T.S., A. Zhugayevych, E. Chertkov, R.C. Bakus, J.L. Coughlin, S.J. Teat, G. Bazan, and S. Tretiak, “Polymorphism of Crystalline Molecular Donors for Solution-Processed Organic Photovoltaics,” The Journal of Physical Chemistry Letters 5, 2700-2704 (2014). (doi:10.1021/jz5012675) 11.3.1

244. Wannarit, N., N. Nassirinia, S. Amani, N. Masciocchi, S. Youngme, O. Roubeau, S.J. Teat, and P. Gamez, “Drastic Effect of Lattice Propionitrile Molecules on the Spin-Transition Temperature of a 2,2'-Dipyridylamino/s-triazine-Based Iron(II) Complex,” Inorganic Chemistry 53(18), 9827-9836 (2014). (doi:10.1021/ic501389s) 11.3.1

245. Warren, M.R., T.L. Easun, S.K. Brayshaw, R.J. Deeth, M.W. George, A.L. Johnson, S. Schiffers, S.J. Teat, A.J. Warren, J.E. Warren, C.C. Wilson, C.H. Woodall, and P.R. Raithby, “Solid-State Interconversions: Unique 100 % Reversible Transformations between the Ground and Metastable States in Single-Crystals of a Series of Nickel(II) Nitro Complexes,” Chemistry - A European Journal 20(18), 5468-5477 (2014). (doi:10.1002/chem.201302053) 11.3.1

246. Williams, D.E., J.A. Rietman, J.M. Maier, R. Tan, A.B. Greytak, M.D. Smith, J.A. Krause, and N.B. Shustova, “Energy Transfer on Demand: Photoswitch-Directed Behavior of Metal-Porphyrin Frameworks,” Journal of the American Chemical Society 136(34), 11886-11889 (2014). (doi:10.1021/ja505589d) 11.3.1

247. Woodall, C.H., S. Fuertes, C.M. Beavers, L.E. Hatcher, A.D. Parlett, H.J. Shepherd, J. Christensen, S.J. Teat, M. Intissar, A. Rodrigue-Witchel, Y. Suffren, C. Reber, C.H. Hendon, D. Tiana, A. Walsh, and P.R. Raithby, “Tunable Trimers: Using Temperature and Pressure to Control Luminescent Emission in Gold(I) Pyrazolate-Based Trimers,” Chemistry - A European Journal 20(51), 16933-16942 (2014). (doi:10.1002/chem.201404058) 11.3.1

248. Xu, W.L., M.D. Smith, J.A. Krause, A.B. Greytak, S. Ma, C.M. Read, and L.S. Shimizu, “Single Crystal to Single Crystal Polymerization of a Self-Assembled Diacetylene Macrocycle Affords Columnar Polydiacetylenes,” Crystal Growth 14(3), 993-1002 (2014). (doi:10.1021/cg401380a) 11.3.1

249. Zuo, T.M., H.C. Dorn, C.M. Beavers, M.M. Olmstead, and A.L. Balch, “Isolation and Crystallographic Characterization of Tm3N@D2(35)-C-88,” Fullerenes, Nanotubes and Carbon Nanostructures 22(1-3), 280-288 (2014). (doi:10.1080/1536383X.2013.812641) 11.3.1