J
Jiangtian Li
Researcher at United States Army Research Laboratory
Publications - 56
Citations - 8969
Jiangtian Li is an academic researcher from United States Army Research Laboratory. The author has contributed to research in topics: Water splitting & Plasmon. The author has an hindex of 29, co-authored 53 publications receiving 7588 citations. Previous affiliations of Jiangtian Li include Chinese Academy of Sciences & West Virginia University.
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Nanostructured carbon–metal oxide composite electrodes for supercapacitors: a review
TL;DR: The constituent, the structure and the properties of the carbon-metal oxide composites, including the synergistic effects of the composite on the performance of supercapacitors in terms of specific capacitance, energy density, power density, rate capability and cyclic stability are described.
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Photocatalytic Activity Enhanced by Plasmonic Resonant Energy Transfer from Metal to Semiconductor
Scott K. Cushing,Jiangtian Li,Fanke Meng,Tess R. Senty,Savan Suri,Mingjia Zhi,Ming Li,Alan D. Bristow,Nianqiang Wu +8 more
TL;DR: RET from a plasmonic metal to a semiconductor is a viable and efficient mechanism that can be used to guide the design of photocatalysts, photovoltaics, and other optoelectronic devices.
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Semiconductor-based photocatalysts and photoelectrochemical cells for solar fuel generation: a review
Jiangtian Li,Nianqiang Wu +1 more
TL;DR: In this paper, the authors describe the barrier, progress and future direction of research on the correlation of the chemical constituent, size, dimensionality, architecture, crystal structure, microstructure and electronic band structure of photocatalysts (or photoelectrodes) with five vital processes including light absorption, charge separation, migration and recombination as well as surface redox reactions.
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Plasmon-induced resonance energy transfer for solar energy conversion
TL;DR: In this article, plasmonics enable the opposite transfer direction, transferring the plasmanic energy towards the short-wavelength direction to induce charge separation in a semiconductor.
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Solar Hydrogen Generation by Nanoscale p–n Junction of p-type Molybdenum Disulfide/n-type Nitrogen-Doped Reduced Graphene Oxide
TL;DR: The photoelectrochemical measurement shows that the p-MoS2/n-rGO junction greatly enhances the charge generation and suppresses the charge recombination, which is responsible for enhancement of solar hydrogen generation.