Your search keyword '"Kepert, Cameron J."' showing total 18 results

1. Hysteretic Four-Step Spin Crossover within a Three-Dimensional Porous Hofmann-like Material

Author

Clements, John E., primary, Price, Jason R., additional, Neville, Suzanne M., additional, and Kepert, Cameron J., additional

Published

2016

2. Perturbation of Spin Crossover Behavior by Covalent Post-Synthetic Modification of a Porous Metal-Organic Framework

Author

Clements, John E., primary, Price, Jason R., additional, Neville, Suzanne M., additional, and Kepert, Cameron J., additional

Published

2014

3. Interpenetration as a Mechanism for Negative Thermal Expansion in the Metal-Organic Framework Cu3(btb)2(MOF-14)

Author

Wu, Yue, primary, Peterson, Vanessa K., additional, Luks, Emily, additional, Darwish, Tamim A., additional, and Kepert, Cameron J., additional

Published

2014

4. Negative Thermal Expansion in LnCo(CN)6(Ln=La, Pr, Sm, Ho, Lu, Y): Mechanisms and Compositional Trends

Author

Duyker, Samuel G., primary, Peterson, Vanessa K., additional, Kearley, Gordon J., additional, Ramirez-Cuesta, Anibal J., additional, and Kepert, Cameron J., additional

Published

2013

5. Innentitelbild: Hysteretic Three‐Step Spin Crossover in a Thermo‐ and Photochromic 3D Pillared Hofmann‐type Metal–Organic Framework (Angew. Chem. 40/2012)

Author

Sciortino, Natasha F., primary, Scherl‐Gruenwald, Katrin R., additional, Chastanet, Guillaume, additional, Halder, Gregory J., additional, Chapman, Karena W., additional, Létard, Jean‐François, additional, and Kepert, Cameron J., additional

Published

2012

6. Hysteretic Three‐Step Spin Crossover in a Thermo‐ and Photochromic 3D Pillared Hofmann‐type Metal–Organic Framework

Author

Sciortino, Natasha F., primary, Scherl‐Gruenwald, Katrin R., additional, Chastanet, Guillaume, additional, Halder, Gregory J., additional, Chapman, Karena W., additional, Létard, Jean‐François, additional, and Kepert, Cameron J., additional

Published

2012

7. A Mixed‐Spin Molecular Square with a Hybrid [2×2]Grid/Metallocyclic Architecture

Author

Li, Feng, primary, Clegg, Jack K., additional, Goux‐Capes, Laurence, additional, Chastanet, Guillaume, additional, D'Alessandro, Deanna M., additional, Létard, Jean‐François, additional, and Kepert, Cameron J., additional

Published

2011

8. Hierarchical Self‐Assembly of a Chiral Metal–Organic Framework Displaying Pronounced Porosity

Author

Clegg, Jack K., primary, Iremonger, Simon S., additional, Hayter, Michael J., additional, Southon, Peter D., additional, Macquart, René B., additional, Duriska, Martin B., additional, Jensen, Paul, additional, Turner, Peter, additional, Jolliffe, Katrina A., additional, Kepert, Cameron J., additional, Meehan, George V., additional, and Lindoy, Leonard F., additional

Published

2010

9. Local Vibrational Mechanism for Negative Thermal Expansion: A Combined Neutron Scattering and First‐Principles Study

Author

Peterson, Vanessa K., primary, Kearley, Gordon J., additional, Wu, Yue, additional, Ramirez‐Cuesta, Anibal Javier, additional, Kemner, Ewout, additional, and Kepert, Cameron J., additional

Published

2010

10. Systematic Metal Variation and Solvent and Hydrogen‐Gas Storage in Supramolecular Nanoballs

Author

Duriska, Martin B., primary, Neville, Suzanne M., additional, Lu, Jinzhen, additional, Iremonger, Simon S., additional, Boas, John F., additional, Kepert, Cameron J., additional, and Batten, Stuart R., additional

Published

2009

11. A Nanoscale Molecular Switch Triggered by Thermal, Light, and Guest Perturbation

Author

Duriska, Martin B., primary, Neville, Suzanne M., additional, Moubaraki, Boujemaa, additional, Cashion, John D., additional, Halder, Gregory J., additional, Chapman, Karena W., additional, Balde, Chérif, additional, Létard, Jean-François, additional, Murray, Keith S., additional, Kepert, Cameron J., additional, and Batten, Stuart R., additional

Published

2009

12. Innentitelbild: A Nanoscale Molecular Switch Triggered by Thermal, Light, and Guest Perturbation (Angew. Chem. 14/2009)

Author

Duriska, Martin B., primary, Neville, Suzanne M., additional, Moubaraki, Boujemaa, additional, Cashion, John D., additional, Halder, Gregory J., additional, Chapman, Karena W., additional, Balde, Chérif, additional, Létard, Jean-François, additional, Murray, Keith S., additional, Kepert, Cameron J., additional, and Batten, Stuart R., additional

Published

2009

13. Negative Thermal Expansion in the Metal-Organic Framework Material Cu3(1,3,5-benzenetricarboxylate)2

Author

Wu, Yue, primary, Kobayashi, Atsushi, additional, Halder, Gregory J., additional, Peterson, Vanessa K., additional, Chapman, Karena W., additional, Lock, Nina, additional, Southon, Peter D., additional, and Kepert, Cameron J., additional

Published

2008

14. Nanoporosity and Exceptional Negative Thermal Expansion in Single-Network Cadmium Cyanide

Author

Phillips, Anthony E., primary, Goodwin, Andrew L., additional, Halder, Gregory J., additional, Southon, Peter D., additional, and Kepert, Cameron J., additional

Published

2008

15. A Thermal Spin Transition in a Nanoporous Iron(II) Coordination Framework Material

Author

Neville, Suzanne M., primary, Moubaraki, Boujemaa, additional, Murray, Keith S., additional, and Kepert, Cameron J., additional

Published

2007

16. Interpenetration as a Mechanism for Negative Thermal Expansion in the Metal-Organic Framework Cu3(btb)2 (MOF-14).

Author

Wu, Yue, Peterson, Vanessa K., Luks, Emily, Darwish, Tamim A., and Kepert, Cameron J.

Subjects

METAL-organic frameworks, THERMAL expansion, SINGLE crystals, CRYSTAL structure, X-ray powder diffraction

Abstract

Metal-organic framework materials (MOFs) have recently been shown in some cases to exhibit strong negative thermal expansion (NTE) behavior, while framework interpenetration has been found to reduce NTE in many materials. Using powder and single-crystal diffraction methods we investigate the thermal expansion behavior of interpenetrated Cu3(btb)2 (MOF-14) and find that it exhibits an anomalously large NTE effect. Temperature-dependent structural analysis shows that, contrary to other interpenetrated materials, in MOF-14 the large positive thermal expansion of weak interactions that hold the interpenetrating networks together results in a low-energy contractive distortion of the overall framework structure, demonstrating a new mechanism for NTE. [ABSTRACT FROM AUTHOR]

Published

2014

17. Desolvatisierung eines neuartigen, durch H-Brücken gebildeten mikroporösen Gerüsts: Charakterisierung durch In-situ-Einkristall- und -Pulverröntgendiffraktometrie

Author

Kepert, Cameron J., primary, Hesek, Dusan, additional, Beer, Paul D., additional, and Rosseinsky, Matthew J., additional

Published

1998

18. Negative Thermal Expansion in LnCo(CN)6 (Ln=La, Pr, Sm, Ho, Lu, Y): Mechanisms and Compositional Trends.

Author

Duyker, Samuel G., Peterson, Vanessa K., Kearley, Gordon J., Ramirez-Cuesta, Anibal J., and Kepert, Cameron J.

Published

2013