陕西师范大学主页平台管理系统 Wei Ren--Home--Paper Publications

Wei Ren

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Name (English):Wei Ren Department:化学化工学院 Education Level:博士研究生 Business Address:致知楼1520 Gender:Male Contact Information:Wei.Ren@snnu.edu.cn Degree:博士 Status:在职 Alma Mater:悉尼科技大学 Discipline:Analytical chemistry

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Paper Publications

冯秦雅,Wei Ren,范文娇,liuchenghui,Recent advances in exosome analysis assisted by functional nucleic acid-based signal amplification technologies:Trends in Analytical Chemistry,2022.1.31,149:116549
Wei Ren,刘成辉,张莉君,范文娇,贾黛璐,冯秦雅,Microchamber-Free Digital Flow Cytometric Analysis of T4 Polynucleotide Kinase Phosphatase Based on Single-Enzyme-to-Single-Bead Space-Confined Reaction:Analytical Chemistry,2021.10.29,93(44):14828–14836
卢晓慧,任伟,刘成辉,胡晨,贾黛璐,范文娇,Amplification-Free and Mix-and-Read Analysis of Multiplexed MicroRNAs on a Single Plasmonic Microbead:Nano Letters,2021.7.29,21(15):6718＆#8722;6724
孙素娟,任伟,卢晓慧,张莉君,刘成辉,Colorimetric and fluorometric dual-readout protein kinase assay by tuning the active surface of nanoceria:Chemical Communications,2021.7.21,57(66):8154-8157
冯秦雅,任伟,翟雨晴,刘成辉,Target Extension-Activated DNA Walker on Nanoparticles for Digital Counting-Based Analysis of MicroRNA:Chinese Journal of Chemistry,2021.2.1,39(6):1471-1476
祁艳,刘成辉,翟雨晴,范文娇,李正平,Click Chemistry-Actuated Digital DNA Walker Confined on a Single Particle toward Absolute MicroRNA Quantification:Analytical Chemistry,2021.1.15,93(3):1620–1626
范文娇,任伟,刘豆,刘成辉,Trends of Bead Counting-Based Technologies Toward the Detection of Disease-Related Biomarkers:Frontiers in Chemistry,2020.12.21,8:600317
卢晓慧,刘成辉,李正平,胡晨,Plasmon-Enhanced Surface-Enhanced Raman Scattering Mapping Concentrated on a Single Bead for Ultrasensitive and Multiplexed Immunoassay:Analytical Chemistry,2020.8.18,92:12387-12393
范文娇,刘成辉,祁艳,卢晓慧,李正平,An emulsion-free digital flow cytometric platform for the precise quantification of microRNA based on single molecule extension-illuminated microbeads (dFlowSeim):Chemical Communications,2020.5.28,56:7179-7182
王高婷,刘晓玲,范文娇,刘成辉,High-sensitive sensing of plant microRNA by integrating click chemistry with an unusual on-bead poly(T)-promoted transcription amplification:Analytica Chimica Acta,2020.3.18,1111:16-22

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Paper Publications

冯秦雅,Wei Ren,范文娇,liuchenghui,Recent advances in exosome analysis assisted by functional nucleic acid-based signal amplification technologies:Trends in Analytical Chemistry,2022.1.31,149:116549

Wei Ren,刘成辉,张莉君,范文娇,贾黛璐,冯秦雅,Microchamber-Free Digital Flow Cytometric Analysis of T4 Polynucleotide Kinase Phosphatase Based on Single-Enzyme-to-Single-Bead Space-Confined Reaction:Analytical Chemistry,2021.10.29,93(44):14828–14836

卢晓慧,任伟,刘成辉,胡晨,贾黛璐,范文娇,Amplification-Free and Mix-and-Read Analysis of Multiplexed MicroRNAs on a Single Plasmonic Microbead:Nano Letters,2021.7.29,21(15):6718＆#8722;6724

孙素娟,任伟,卢晓慧,张莉君,刘成辉,Colorimetric and fluorometric dual-readout protein kinase assay by tuning the active surface of nanoceria:Chemical Communications,2021.7.21,57(66):8154-8157

冯秦雅,任伟,翟雨晴,刘成辉,Target Extension-Activated DNA Walker on Nanoparticles for Digital Counting-Based Analysis of MicroRNA:Chinese Journal of Chemistry,2021.2.1,39(6):1471-1476

祁艳,刘成辉,翟雨晴,范文娇,李正平,Click Chemistry-Actuated Digital DNA Walker Confined on a Single Particle toward Absolute MicroRNA Quantification:Analytical Chemistry,2021.1.15,93(3):1620–1626

范文娇,任伟,刘豆,刘成辉,Trends of Bead Counting-Based Technologies Toward the Detection of Disease-Related Biomarkers:Frontiers in Chemistry,2020.12.21,8:600317

卢晓慧,刘成辉,李正平,胡晨,Plasmon-Enhanced Surface-Enhanced Raman Scattering Mapping Concentrated on a Single Bead for Ultrasensitive and Multiplexed Immunoassay:Analytical Chemistry,2020.8.18,92:12387-12393

范文娇,刘成辉,祁艳,卢晓慧,李正平,An emulsion-free digital flow cytometric platform for the precise quantification of microRNA based on single molecule extension-illuminated microbeads (dFlowSeim):Chemical Communications,2020.5.28,56:7179-7182

王高婷,刘晓玲,范文娇,刘成辉,High-sensitive sensing of plant microRNA by integrating click chemistry with an unusual on-bead poly(T)-promoted transcription amplification:Analytica Chimica Acta,2020.3.18,1111:16-22

Wei Ren