C
Cameron J. Kepert
Researcher at University of Sydney
Publications - 202
Citations - 13826
Cameron J. Kepert is an academic researcher from University of Sydney. The author has contributed to research in topics: Spin crossover & Negative thermal expansion. The author has an hindex of 59, co-authored 197 publications receiving 12769 citations. Previous affiliations of Cameron J. Kepert include University of Cambridge & University of Queensland.
Papers
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Journal ArticleDOI
Regulation of Multistep Spin Crossover Across Multiple Stimuli in a 2-D Framework Material.
Manan Ahmed,Katrina A. Zenere,Natasha F. Sciortino,Kasun S. Athukorala Arachchige,Gemma F. Turner,Jace Cruddas,Carol Hua,Jason R. Price,Jack K. Clegg,Francisco Javier Valverde-Muñoz,José Antonio Real,Guillaume Chastanet,Stephen A. Moggach,Cameron J. Kepert,Ben Powell,Suzanne M. Neville +15 more
TL;DR: In this paper , the effects of a broad array of external stimuli on the structural, spin-crossover (SCO) properties and nature of the elastic interaction within the two-dimensional Hofmann framework material [Fe(cintrz)2Pd(CN)4]·guest (n-cinnamalidene 4-amino-1,2,4-triazole; A ·guest; guest = 3H 2O, 2H2O, and Ø).
Journal ArticleDOI
MEM(TCNQ)2 at room temperature and 10 K, and the absence of a spin-Peierls transition.
TL;DR: Evidence for the expected spin-Peierls transition at 19 K is not found, and this may follow from radiation damage to the crystal or from insufficient equipment sensitivity.
Journal ArticleDOI
Fluorescence Enhancement through Confined Oligomerization in Nanochannels: An Anthryl Oligomer in a Metal-Organic Framework
Tiesheng Wang,Tiesheng Wang,Randy P. Sabatini,Bun Chan,Jingwei Hou,Vien T. Huynh,Nicholas Proschogo,Zixi Xie,Tan Wang,Long Gao,Jiaqi Zhang,Brian S. Hawkett,Ronald J. Clarke,Cameron J. Kepert,Vicki Chen,Girish Lakhwani,Deanna M. D'Alessandro +16 more
Patent
Modified inorganic materials
TL;DR: In this paper, a method of conditioning a tubular clay material to enable its loading with an active is described, the method comprising the step of exposing the tubular Clay material to a chemical agent in a manner such that the agent sorbs to a surface of the clay material that is internal of the tube, the chemical agent being selected such that, when the agent is sorbed to the internal surface, the affinity of the tubularity clay material for the active is altered.
Journal ArticleDOI
Innentitelbild: Hysteretic Three-Step Spin Crossover in a Thermo- and Photochromic 3D Pillared Hofmann-type Metal–Organic Framework (Angew. Chem. 40/2012)
Natasha F. Sciortino,Katrin R. Scherl‐Gruenwald,Guillaume Chastanet,Gregory J. Halder,Karena W. Chapman,Jean-François Létard,Cameron J. Kepert +6 more