F
Feng Zhang
Researcher at Fudan University
Publications - 2715
Citations - 225233
Feng Zhang is an academic researcher from Fudan University. The author has contributed to research in topics: Medicine & Biology. The author has an hindex of 172, co-authored 1278 publications receiving 181865 citations. Previous affiliations of Feng Zhang include Cincinnati Children's Hospital Medical Center & Nanjing Medical University.
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Bisphenol A epoxy resin modified room temperature vulcanized silicone rubber and preparation method thereof
TL;DR: In this article, a bisphenol A epoxy resin modified room temperature vulcanized silicone rubber and a preparation method for organic silicon rubber is presented. But the method is limited to the case of polysiloxane polymers.
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Oxygenated N-doped porous carbon derived from ammonium alginate: Facile synthesis and superior electrochemical performance for supercapacitor
TL;DR: In this paper , an oxygenated N-doped porous carbon with high surface area was successfully prepared through carbonization of ammonium alginate aerogel followed by air activation treatment, and the obtained porous carbon exhibits excellent electrochemical performance when used as electrode materials for supercapacitors.
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Ion beam assisted deposition of biaxially textured YSZ thin films as buffer layers for YBCO superconducting films
TL;DR: In this paper, biaxially textured Yttria-stabilized Zirconia films for use as buffer layers of YBCO superconducting films have been deposited on polycrystalline Ni Cr metallic substrates by using ion beam assisted deposition system with dual ion sources.
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An Extensible Vector Toolkit and Parts Library for Advanced Engineering of Plant Genomes
James Chamness,Jitesh Kumar,Anna J. Cruz,Elissa Rhuby,Mason J. Holum,Jon P. Cody,Redeat Tibebu,Maria Elena Gamo,Colby G. Starker,Feng Zhang,Daniel F. Voytas +10 more
TL;DR: A universal Golden Gate cloning toolkit for vector construction is described, compatible with the widely accepted Phytobrick standard for genetic parts, and supports assembly of arbitrarily complex T-DNAs through improved capacity, positional flexibility, and extensibility in comparison to extant kits.