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.
Papers
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NTIRE 2022 Spectral Demosaicing Challenge and Data Set
Boaz Arad,Radu Timofte,Rony Yahel,Nimrod Morag,Amir S. Bernat,Yaqi Wu,Xun Wu,Zhihao Fan,Chenjie Xia,Feng Zhang,Shuai Li,Yongqiang Li,Chaoyu Feng,Lei Lei,Mingwei Zhang,Kai Feng,Jingbo Yu,Yuan Xue,Zheng Xie +18 more
TL;DR: The first challenge on demosaicing of natural spectral images for snapshot hyperspectral imaging systems (HIS) which utilize a multi-spectral filer array (MSFA) was presented in this paper .
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Genetic association, mRNA and protein expression analysis identify ATG4C as a susceptibility gene for Kashin-Beck disease.
Cuiyan Wu,Yan Wen,Xiong Guo,Tie-Lin Yang,Hui Shen,Xiang-Ding Chen,Qing Tian,Li-Jun Tan,Hong-Wen Deng,Feng Zhang +9 more
TL;DR: An integrative analysis of genetic association, messenger ribonucleic acid (mRNA) and protein expression of ATG4C in KBD patients strongly suggest that ATg4C was a novel autophagy-related susceptibility gene of KBD.
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Gas Sensors Based on Single-Wall Carbon Nanotubes
TL;DR: In this paper , the sensing mechanism of single-wall carbon nanotubes (SWCNTs) and the typical structure and key parameters of SWCNT-based gas sensors are discussed.
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Epigenetic features drastically impact CRISPR–Cas9 efficacy in plants
Trevor J. Weiss,Peter A. Crisp,Krishan Mohan Rai,Meredith Song,Nathan M. Springer,Feng Zhang +5 more
TL;DR: The wealth of high-resolution epigenomic resources in Arabidopsis were leveraged to address the impact of chromatin features on CRISPR–Cas9 mutagenesis using stable transgenic plants and indicated that DNA methylation and Chromatin features could lead to substantial variations in Mutagenesis efficiency by up to 250-fold.
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Tuning the Reactivity of Ultrathin Oxides: NO Adsorption on Monolayer FeO(111).
Lindsay R. Merte,Christopher J. Heard,Feng Zhang,Juhee Choi,Mikhail Shipilin,Johan Gustafson,Jason F. Weaver,Henrik Grönbeck,Edvin Lundgren +8 more
TL;DR: Calculations show that the size of the activation barrier to adsorption caused by the rumpling is dictated by the strength of the metal-oxide interaction, offering a straightforward method for tailoring the adsorptive properties of ultrathin films.