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Wenjiao Fan

Showing results (11-20 of 28) with videos related to

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Analytical Chemistry|August 26, 2023
Digital-like Enzyme Inhibition Mechanism-Based Strategy for the Digital Sensing of Heparin-Specific BiomarkersWenjiao Fan, Wei Ren, Dailu Jia, et al.
Analytical Chemistry|October 29, 2021
Microchamber-Free Digital Flow Cytometric Analysis of T4 Polynucleotide Kinase Phosphatase Based on Single-Enzyme-to-Single-Bead Space-Confined ReactionLijun Zhang, Wenjiao Fan, Dailu Jia, et al.
Analytical Chemistry|June 17, 2025
DNA Hybridization-Accelerated Programmable Immuno-Aggregation of Microbeads Enabling Mix-and-Read Flow Cytometric Protein AnalysisJunyue Sun, Xinrui Fei, Wenjiao Fan, et al.
Nano Letters|March 24, 2025
Persistent Chemiluminescence-Enabled Digital Bead Counting for Quantifying Attomolar MicroRNAsChao Lei, Wenjiao Fan, Jingjing Shi, et al.
Analytical Chemistry|March 31, 2018
Click Chemical Ligation-Initiated On-Bead DNA Polymerization for the Sensitive Flow Cytometric Detection of 3'-Terminal 2'-O-Methylated Plant MicroRNAWenjiao Fan, Yan Qi, Liying Qiu, et al.
Analytical Chemistry|December 28, 2020
Click Chemistry-Actuated Digital DNA Walker Confined on a Single Particle toward Absolute MicroRNA QuantificationYan Qi, Yuqing Zhai, Wenjiao Fan, et al.
Nano Letters|July 29, 2021
Amplification-Free and Mix-and-Read Analysis of Multiplexed MicroRNAs on a Single Plasmonic MicrobeadXiaohui Lu, Chen Hu, Dailu Jia, et al.
ACS Sensors|November 21, 2018
An Enzyme-Free MicroRNA Assay Based On Fluorescence Counting of Click Chemical Ligation-Illuminated Magnetic Nanoparticles with Total Internal Reflection Fluorescence MicroscopyYan Qi, Xiaohui Lu, Qinya Feng, et al.
Chemical Communications (Cambridge, England)|May 29, 2020
An emulsion-free digital flow cytometric platform for the precise quantification of microRNA based on single molecule extension-illuminated microbeads (dFlowSeim)Wenjiao Fan, Yan Qi, Xiaohui Lu, et al.
Chemistry (Weinheim an Der Bergstrasse, Germany)|December 12, 2018
A Versatile Dynamic Light Scattering Strategy for the Sensitive Detection of Plant MicroRNAs Based on Click-Chemistry-Amplified Aggregation of Gold NanoparticlesXiaohui Lu, Wenjiao Fan, Qinya Feng, et al.
Pageof 3

Showing results (11-20 of 28) with videos related to

Sort By:
Pageof 3
Analytical Chemistry|August 26, 2023
Digital-like Enzyme Inhibition Mechanism-Based Strategy for the Digital Sensing of Heparin-Specific BiomarkersWenjiao Fan, Wei Ren, Dailu Jia, et al.
Analytical Chemistry|October 29, 2021
Microchamber-Free Digital Flow Cytometric Analysis of T4 Polynucleotide Kinase Phosphatase Based on Single-Enzyme-to-Single-Bead Space-Confined ReactionLijun Zhang, Wenjiao Fan, Dailu Jia, et al.
Analytical Chemistry|June 17, 2025
DNA Hybridization-Accelerated Programmable Immuno-Aggregation of Microbeads Enabling Mix-and-Read Flow Cytometric Protein AnalysisJunyue Sun, Xinrui Fei, Wenjiao Fan, et al.
Nano Letters|March 24, 2025
Persistent Chemiluminescence-Enabled Digital Bead Counting for Quantifying Attomolar MicroRNAsChao Lei, Wenjiao Fan, Jingjing Shi, et al.
Analytical Chemistry|March 31, 2018
Click Chemical Ligation-Initiated On-Bead DNA Polymerization for the Sensitive Flow Cytometric Detection of 3'-Terminal 2'-O-Methylated Plant MicroRNAWenjiao Fan, Yan Qi, Liying Qiu, et al.
Analytical Chemistry|December 28, 2020
Click Chemistry-Actuated Digital DNA Walker Confined on a Single Particle toward Absolute MicroRNA QuantificationYan Qi, Yuqing Zhai, Wenjiao Fan, et al.
Nano Letters|July 29, 2021
Amplification-Free and Mix-and-Read Analysis of Multiplexed MicroRNAs on a Single Plasmonic MicrobeadXiaohui Lu, Chen Hu, Dailu Jia, et al.
ACS Sensors|November 21, 2018
An Enzyme-Free MicroRNA Assay Based On Fluorescence Counting of Click Chemical Ligation-Illuminated Magnetic Nanoparticles with Total Internal Reflection Fluorescence MicroscopyYan Qi, Xiaohui Lu, Qinya Feng, et al.
Chemical Communications (Cambridge, England)|May 29, 2020
An emulsion-free digital flow cytometric platform for the precise quantification of microRNA based on single molecule extension-illuminated microbeads (dFlowSeim)Wenjiao Fan, Yan Qi, Xiaohui Lu, et al.
Chemistry (Weinheim an Der Bergstrasse, Germany)|December 12, 2018
A Versatile Dynamic Light Scattering Strategy for the Sensitive Detection of Plant MicroRNAs Based on Click-Chemistry-Amplified Aggregation of Gold NanoparticlesXiaohui Lu, Wenjiao Fan, Qinya Feng, et al.
Pageof 3