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Thomas J. Richardson
Researcher at Lawrence Berkeley National Laboratory
Publications - 124
Citations - 8527
Thomas J. Richardson is an academic researcher from Lawrence Berkeley National Laboratory. The author has contributed to research in topics: Lithium & Electrochromism. The author has an hindex of 46, co-authored 114 publications receiving 7798 citations. Previous affiliations of Thomas J. Richardson include National Center for Electron Microscopy.
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Electron Microscopy Study of the LiFePO4 to FePO4 Phase Transition
TL;DR: In this article, the mechanism by which LiFePO 4 is transformed into isostructural FePO 4 has been elucidated using electron microscopy on large, hydrothermally grown LiFe PO 4 crystals following chemical delithiation.
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Dynamically Modulating the Surface Plasmon Resonance of Doped Semiconductor Nanocrystals
Guillermo Garcia,Raffaella Buonsanti,Evan L. Runnerstrom,Rueben J. Mendelsberg,Anna Llordes,André Anders,Thomas J. Richardson,Delia J. Milliron +7 more
TL;DR: It is shown that the surface plasmons of tin-doped indium oxide nanocrystal films can be dynamically and reversibly tuned by postsynthetic electrochemical modulation of the electron concentration.
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Electrochemical analysis for cycle performance and capacity fading of a lithium-ion battery cycled at elevated temperature
TL;DR: In this paper, high-temperature LiNi0.8Co0.15Al0.05O2/graphite lithium-ion pouch cells were cycled over 100% DOD at room temperature and 60 8 Ci n to investigate high temperature degradation mechanisms of this important technology.
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Fluorographene: a wide bandgap semiconductor with ultraviolet luminescence.
Ki-Joon Jeon,Zonghoon Lee,Elad Pollak,Luca Moreschini,Aaron Bostwick,Cheol-Min Park,Rueben J. Mendelsberg,Velimir Radmilovic,Robert Kostecki,Thomas J. Richardson,Eli Rotenberg +10 more
TL;DR: It is shown that treatment of graphene with xenon difluoride produces a partially fluorinated graphene (fluorographene) with covalent C-F bonding and local sp(3)-carbon hybridization, suggesting the use of fluorographane as a new, readily prepared material for electronic, optoelectronic applications, and energy harvesting applications.
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The origin of high electrolyte-electrode interfacial resistances in lithium cells containing garnet type solid electrolytes
Lei Cheng,Lei Cheng,Ethan J. Crumlin,Wei Chen,Ruimin Qiao,Huaming Hou,Huaming Hou,Simon Franz Lux,Vassilia Zorba,Richard E. Russo,Robert Kostecki,Zhi Liu,Kristin A. Persson,Wanli Yang,Jordi Cabana,Jordi Cabana,Thomas J. Richardson,Guoying Chen,Marca M. Doeff +18 more
TL;DR: Results obtained from lithium symmetrical cells suggest that the quality of the LLZO/lithium interface has a significant impact on the device lifetime and surface polishing can effectively remove Li2CO3 and dramatically improve the interfacial properties.