L
Lars Peters
Researcher at University of Kiel
Publications - 18
Citations - 676
Lars Peters is an academic researcher from University of Kiel. The author has contributed to research in topics: Powder diffraction & Negative thermal expansion. The author has an hindex of 6, co-authored 18 publications receiving 593 citations. Previous affiliations of Lars Peters include RWTH Aachen University & Durham University.
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Journal ArticleDOI
Colossal Positive and Negative Thermal Expansion in the Framework Material Ag3[Co(CN)6]
Andrew L. Goodwin,M. Calleja,Michael J. Conterio,Martin T. Dove,John S. O. Evans,David A. Keen,David A. Keen,Lars Peters,Matthew G. Tucker +8 more
TL;DR: This study illustrates how the mechanical properties of a van der Waals solid might be engineered into a rigid, useable framework.
Journal ArticleDOI
Colossal Positive and Negative Thermal Expansion in the Framework Material Ag3[Co(CN)6].
Andrew L. Goodwin,M. Calleja,Michael J. Conterio,Martin T. Dove,John S. O. Evans,David A. Keen,David A. Keen,Lars Peters,Matthew G. Tucker +8 more
TL;DR: In this paper, it was shown that the van der Waals solid of Ag3[Co(CN)6 exhibits positive and negative thermal expansion an order of magnitude greater than that seen in other crystalline materials.
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High-pressure behavior of otavite (CdCO3)
Robert Minch,Donghoon Seoung,Lars Ehm,Lars Ehm,Björn Winkler,Karsten Knorr,Lars Peters,L. A. Borkowski,John B. Parise,Yongjae Lee,Leonid Dubrovinsky,Wulf Depmeier +11 more
TL;DR: In this article, the high pressure, room temperature behavior of otavite (CdCO(3)) was investigated by angle-dispersive synchrotron radiation powder diffraction up to 40 GPa, Raman spectroscopy up to 23 GPa and quantum mechanical calculations based on density functional theory.
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Direct synthesis of cubic ZrMo2O8 followed by ultrafast in situ powder diffraction.
TL;DR: High-speed, high-temperature in situ diffraction studies carried out at beamline ID11 at the European Synchrotron Radiation Facility (ESRF) have shown that it is in fact possible to prepare gamma-ZrMo(2)O(8) directly from the constituent oxides in a narrow temperature window around 1400 K where it appears to be entropically stabilized.
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Pressure induced phase transition in Fe0.47NbS2 studied by powder X-ray diffraction
TL;DR: The structural behavior of Fe0.47NbS2 at high pressure has been investigated by angular dispersive synchrotron powder diffraction up to 13.63(7) GPa as mentioned in this paper.