J
Jun Lu
Researcher at Chinese Academy of Sciences
Publications - 3187
Citations - 131399
Jun Lu is an academic researcher from Chinese Academy of Sciences. The author has contributed to research in topics: Medicine & Computer science. The author has an hindex of 135, co-authored 1526 publications receiving 99767 citations. Previous affiliations of Jun Lu include Drexel University & Argonne National Laboratory.
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Reversible intercalation of methyl viologen as a dicationic charge carrier in aqueous batteries.
Zhixuan Wei,Zhixuan Wei,Woochul Shin,Heng Jiang,Xianyong Wu,William F. Stickle,Gang Chen,Jun Lu,P. Alex Greaney,Fei Du,Xiulei Ji +10 more
TL;DR: The reversible insertion of a large molecular dication, methyl viologen, into the crystal structure of an aromatic solid electrode, 3,4,9,10-perylenetetracarboxylic dianhydride, is reported, the largest insertion charge carrier when non-solvated ever reported for batteries.
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Characterization of magnetron sputtered Cr-B and Cr-B-C thin films for electrical contact applications
TL;DR: In this article, a co-sputtering from chromium boride and carbon targets was used to co-setter the binary and binary Cr-B films, which consist of nanocrystalline and substoichiometric CrB2 -x grains.
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The role of ABC and SLC transporters in the pharmacokinetics of dietary and herbal phytochemicals and their interactions with xenobiotics.
Yan Li,Jun Lu,James W. Paxton +2 more
TL;DR: There is a complex interplay between various PCs and their ability to modulate the activity of these transporters involved in the processes of absorption, metabolism, distribution and excretion, which control the extent of xenobiotic exposure in the body.
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In Situ TEM Investigation of ZnO Nanowires during Sodiation and Lithiation Cycling
Hasti Asayesh-Ardakani,Wentao Yao,Yifei Yuan,Anmin Nie,Khalil Amine,Jun Lu,Reza Shahbazian-Yassar +6 more
TL;DR: In this article, a direct correlation between the mechanical behavior of the lithiated/sodiated ZnO nanowires and their electrochemical cyclability was found. But the results reveal the importance of understanding the correlation between mechanical properties of battery electrodes and their cycling abilities.
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Stable nanostructured cathode with polycrystalline Li-deficient Li0.28Co0.29Ni0.30Mn0.20O2 for lithium-ion batteries.
TL;DR: A novel nanostructured cathode material based on air-stable polycrystalline Li0.20O2 thin film with lithium deficiency for high-energy density lithium-ion batteries, especially thin-film batteries is reported.