S
Song Jin
Researcher at University of Wisconsin-Madison
Publications - 295
Citations - 39221
Song Jin is an academic researcher from University of Wisconsin-Madison. The author has contributed to research in topics: Nanowire & Perovskite (structure). The author has an hindex of 84, co-authored 275 publications receiving 31826 citations. Previous affiliations of Song Jin include Wisconsin Alumni Research Foundation & Cornell University.
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Journal ArticleDOI
Specific Enrichment of Phosphoproteins Using Functionalized Multivalent Nanoparticles
Leekyoung Hwang,Serife Ayaz-Guner,Zachery R. Gregorich,Wenxuan Cai,Santosh G. Valeja,Song Jin,Ying Ge +6 more
TL;DR: Superparamagnetic nanoparticles (NPs) are developed whose surface is functionalized by multivalent ligand molecules that specifically bind to the phosphate groups on any phosphoproteins to enable universal and effective capture, enrichment, and detection of intact phosphiproteins toward a comprehensive analysis of the phosphoproteinome.
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Ultrahigh-Performance Optoelectronics Demonstrated in Ultrathin Perovskite-Based Vertical Semiconductor Heterostructures.
Tiefeng Yang,Xiao Wang,Biyuan Zheng,Zhaoyang Qi,Chao Ma,Yuhao Fu,Yongping Fu,Matthew P. Hautzinger,Ying Jiang,Ziwei Li,Peng Fan,Fang Li,Weihao Zheng,Ziyu Luo,Jie Liu,Bin Yang,Shula Chen,Dong Li,Lijun Zhang,Song Jin,Anlian Pan +20 more
TL;DR: This work designs an ultrathin PVK/TMDC vertical semiconductor heterostructure configuration and realizes the controlled vapor-phase growth of highly crystalline few-nanometer-thick PVK layers on TMDCs monolayers, which shows strong thickness-induced quantum confinement effect, and simultaneously form band alignment-engineered heterointerfaces with the underlying TM DCs, resulting in highly efficient interfacial charge separation and transport.
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Effective Protein Separation by Coupling Hydrophobic Interaction and Reverse Phase Chromatography for Top-down Proteomics
TL;DR: This study has identified ammonium tartrate as a MS-compatible salt for HIC with comparable separation performance as the conventionally used ammonium sulfate and found that the selectivity obtained with ammonium Tartrate in the HIC mobile phases is orthogonal to that of reverse phase chromatography (RPC).
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Engineered nanomaterial transformation under oxidative environmental conditions: development of an in vitro biomimetic assay.
Kevin M. Metz,Andrew N. Mangham,Matthew J. Bierman,Song Jin,Robert J. Hamers,Joel A. Pedersen +5 more
TL;DR: In this article, an in vitro biomimetic assay for investigation of nanomaterial transformation under simulated oxidative environmental conditions is presented. But, it is based on the extracellular hydroquinone-driven Fenton reaction used by lignolytic fungi.
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Metallic CoS₂ nanowire electrodes for high cycling performance supercapacitors.
Ren Ren,Matthew S. Faber,Rafal M. Dziedzic,Zhenhai Wen,Zhenhai Wen,Song Jin,Shun Mao,Junhong Chen +7 more
TL;DR: Electrochemical characterization reveals that the CoS2 NWs enable large specific capacitance, and excellent long term cycling stability, which expands the opportunities for transition metal sulfide-based nanostructures in emerging energy storage applications.