D
Davide Donadio
Researcher at University of California, Davis
Publications - 182
Citations - 25589
Davide Donadio is an academic researcher from University of California, Davis. The author has contributed to research in topics: Thermal conductivity & Phonon. The author has an hindex of 46, co-authored 171 publications receiving 17239 citations. Previous affiliations of Davide Donadio include ETH Zurich & Max Planck Society.
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An electrochemical thermal transistor.
Aditya Sood,Feng Xiong,Feng Xiong,Shunda Chen,Haotian Wang,Haotian Wang,Daniele Selli,Jinsong Zhang,Connor J. McClellan,Jie Sun,Jie Sun,Davide Donadio,Davide Donadio,Yi Cui,Yi Cui,Eric Pop,Kenneth E. Goodson +16 more
TL;DR: This study lays the foundation for electrochemically-driven nanoscale thermal regulators, and establishes thermal metrology as a useful probe of spatio-temporal intercalant dynamics in nanomaterials.
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Flexible and Ultrasoft Inorganic 1D Semiconductor and Heterostructure Systems Based on SnIP
Claudia Ott,Felix Reiter,Maximilian Baumgartner,Markus R. P. Pielmeier,Anna Vogel,Patrick Walke,Stefan Burger,Michael G. Ehrenreich,Gregor Kieslich,Dominik Daisenberger,Jeff Armstrong,Ujwal Kumar Thakur,Pawan Kumar,Shunda Chen,Davide Donadio,Lisa S. Walter,R. Thomas Weitz,R. Thomas Weitz,Karthik Shankar,Tom Nilges +19 more
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Influence of Temperature and Anisotropic Pressure on the Phase Transitions in α-Cristobalite
TL;DR: The role of temperature and anisotropy of the applied load in the pressure-induced transformations of Cristobalite is investigated by means of first principles molecular dynamics combined with the metadynamics algorithm for the study of solid-solid phase transitions as discussed by the authors.
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Combined Experimental and Theoretical Investigation of Heating Rate on Growth of Iron Oxide Nanoparticles
Hamed Sharifi Dehsari,Maziar Heidari,Anielen Halda Ribeiro,Wolfgang Tremel,Gerhard Jakob,Davide Donadio,Raffaello Potestio,Kamal Asadi +7 more
TL;DR: In this paper, a combined experimental and theoretical study on the influence of the heating rate on crystal growth, size, and monodispersity of iron oxide nanoparticles is presented.
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Electronic effects in the IR spectrum of water under confinement.
TL;DR: This study allows for the identification of important electronic effects, contributing to IR signals, that are not included in simulations based on empirical force fields, and cannot be extracted from the analysis of vibrational density of states.