Bionic Recognition and Biosensors: A Theme Issue in Honor of Professor Hong-Yuan Chen
Professor Hong-Yuan Chen is a full-time professor of analytical chemistry at Nanjing University, China. He graduated from Nanjing University in 1961 and became a professor in 1988. He worked as a visiting scholar at Mainz University from 1981 to 1984 and was elected to the Chinese Academy of Science...
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MDPI - Multidisciplinary Digital Publishing Institute
2024
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| Online Erişim: | ONIX_20240906_9783725814732_167 |
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| description | Professor Hong-Yuan Chen is a full-time professor of analytical chemistry at Nanjing University, China. He graduated from Nanjing University in 1961 and became a professor in 1988. He worked as a visiting scholar at Mainz University from 1981 to 1984 and was elected to the Chinese Academy of Sciences in 2001. Professor Chen is well known as a pioneer in the field of electrochemistry and biosensors. He has authored numerous papers and reviews on chemical sensors, probes, labels, and bioassays; microchips, single-cell and single-particle imaging; and spectroscopic methods, including fluorescence and electrochemiluminescence imaging. Professor Chen also has experience in live cell analysis using microneedles, and his group first described microelectrodes in 1987. This work has been adopted in IUPAC. Professor Chen has published >1,100 papers with over >55000 citations and an h-index of 114. He received National Natural Science Award (2nd Class) from the Chinese Government (2007), the Scientific and Technological Progress Award from Ho Leung Hdo Lee Foundation (2007) and the Nature’s 2015 Lifetime Award for South China, among others. This Special Issue is dedicated to celebrating the career of Professor Hong-Yuan Chen in honor of his contributions to the fields of bionic recognition and biosensors. |
| format | Online |
| id | doab-20.500.12854ir-143805 |
| institution | Directory of Open Access Books |
| language | eng |
| publishDate | 2024 |
| publishDateRange | 2024 |
| publishDateSort | 2024 |
| publisher | MDPI - Multidisciplinary Digital Publishing Institute |
| publisherStr | MDPI - Multidisciplinary Digital Publishing Institute |
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| spelling | doab-20.500.12854ir-1438052024-09-06T08:29:50Z Bionic Recognition and Biosensors: A Theme Issue in Honor of Professor Hong-Yuan Chen Ju, Huangxian Xu, Jingjuan droplet microfluidics single cells cell signaling profiling high spatiotemporal resolution layered double hydroxide nanoflowers immunochromatography test strip hydrophobic CdSe/ZnS QDs human chorionic gonadotropin electrochemical biosensor aptamer AuNPs/Ti3C2-MXenes cardiac troponin I myoglobin acute myocardial infarction hybrid chain reaction CRISPR-Cas9 saxitoxin fluorescent detection cataluminescence MOFs structural evaluation specific area electrochemical analysis electrochemical sensor platinum electrode glassy carbon electrode gold electrode chloride quantification bromide quantification amperometry seawater molybdenum disulfide nanozyme neuron-specific enolase electrochemical immunosensor detection Framework Nucleic Acids (FNAs) DNAzyme metal ions intracellular imaging flow cytometry biomolecular recognition DNA technology spatial pattern biosensing targeted therapy aptasensor antibiotics residue seafood sulfonamides visual detection diabetes mellitus bioelectronics exosomes electrochemistry cyclic enzyme scission hybridization chain reaction biomolecules detection mass spectrometry biosensors biometrics clinical mass spectrometry ambient ionization mass spectrometry electrochemiluminescence frameworks nanoemitters epigenetic modifications electrochemical biosensing signal amplification nanostructure modified electrodes near-infrared spectroscopy water structure extra-cellular pH intra-cellular pH partial least squares regression lily fluorophores-assisted excitation-emission matrix fluorescence alternating trilinear decomposition chemometrics fluorophores surface-enhanced Raman scattering non-noble metal nanomaterials substrate metal–organic frameworks (MOFs) glucose detection synthesis optical sensor wearable sensor emitter imaging protein biomarkers NIR-II fluorophore multichannel biosensing spectra-domain mode lifetime-domain mode fluorescence-lifetime mode bimetallic AuAg nanoclusters coordination glutathione NaBH4 magnesium ions reactive oxygen species (ROS) nanozymes electrochemistry sensor biological objects DNA inorganic nanoparticles biomedical fumonisin B1 bipolar electrode-electrochemiluminescence visualization Zr-MOFs 1,10-phenanthroline-5,6-dione NADH Escherichia coli rapid detection Raman spectroscopy SERS substrate rational design bioassays high-sensitivity analysis molecularly imprinted polymer multiple recognition health monitoring sweat analysis wearable device sensing platform non-invasive detection quantum tunneling probe nanogap width electrode single-molecule detection biosensor interface functionalization electro-click tetrabromobisphenol A MnO2 carbon paper modified electrode single-atom nanomaterial electrochemical sensor electrochemical aptasensor biochemical analysis disease diagnosis optical nanostructure plasmonics surface-enhanced spectroscopy sensing miniaturization artificial transmembrane channel DNA nanostructure biomedical application bionic recognition MIPs aptamers diabetic nephropathy biomarkers detection and imaging single-cell analysis biomolecules high sensitivity thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TC Biochemical engineering::TCB Biotechnology Professor Hong-Yuan Chen is a full-time professor of analytical chemistry at Nanjing University, China. He graduated from Nanjing University in 1961 and became a professor in 1988. He worked as a visiting scholar at Mainz University from 1981 to 1984 and was elected to the Chinese Academy of Sciences in 2001. Professor Chen is well known as a pioneer in the field of electrochemistry and biosensors. He has authored numerous papers and reviews on chemical sensors, probes, labels, and bioassays; microchips, single-cell and single-particle imaging; and spectroscopic methods, including fluorescence and electrochemiluminescence imaging. Professor Chen also has experience in live cell analysis using microneedles, and his group first described microelectrodes in 1987. This work has been adopted in IUPAC. Professor Chen has published >1,100 papers with over >55000 citations and an h-index of 114. He received National Natural Science Award (2nd Class) from the Chinese Government (2007), the Scientific and Technological Progress Award from Ho Leung Hdo Lee Foundation (2007) and the Nature’s 2015 Lifetime Award for South China, among others. This Special Issue is dedicated to celebrating the career of Professor Hong-Yuan Chen in honor of his contributions to the fields of bionic recognition and biosensors. 2024-09-06T08:29:45Z 2024-09-06T08:29:45Z 2024 book ONIX_20240906_9783725814732_167 9783725814732 9783725814749 https://directory.doabooks.org/handle/20.500.12854/143805 eng application/octet-stream Attribution-NonCommercial-NoDerivatives 4.0 International https://mdpi.com/books/pdfview/book/9548 https://mdpi.com/books/pdfview/book/9548 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-7258-1474-9 10.3390/books978-3-7258-1474-9 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783725814732 9783725814749 open access |
| spellingShingle | droplet microfluidics single cells cell signaling profiling high spatiotemporal resolution layered double hydroxide nanoflowers immunochromatography test strip hydrophobic CdSe/ZnS QDs human chorionic gonadotropin electrochemical biosensor aptamer AuNPs/Ti3C2-MXenes cardiac troponin I myoglobin acute myocardial infarction hybrid chain reaction CRISPR-Cas9 saxitoxin fluorescent detection cataluminescence MOFs structural evaluation specific area electrochemical analysis electrochemical sensor platinum electrode glassy carbon electrode gold electrode chloride quantification bromide quantification amperometry seawater molybdenum disulfide nanozyme neuron-specific enolase electrochemical immunosensor detection Framework Nucleic Acids (FNAs) DNAzyme metal ions intracellular imaging flow cytometry biomolecular recognition DNA technology spatial pattern biosensing targeted therapy aptasensor antibiotics residue seafood sulfonamides visual detection diabetes mellitus bioelectronics exosomes electrochemistry cyclic enzyme scission hybridization chain reaction biomolecules detection mass spectrometry biosensors biometrics clinical mass spectrometry ambient ionization mass spectrometry electrochemiluminescence frameworks nanoemitters epigenetic modifications electrochemical biosensing signal amplification nanostructure modified electrodes near-infrared spectroscopy water structure extra-cellular pH intra-cellular pH partial least squares regression lily fluorophores-assisted excitation-emission matrix fluorescence alternating trilinear decomposition chemometrics fluorophores surface-enhanced Raman scattering non-noble metal nanomaterials substrate metal–organic frameworks (MOFs) glucose detection synthesis optical sensor wearable sensor emitter imaging protein biomarkers NIR-II fluorophore multichannel biosensing spectra-domain mode lifetime-domain mode fluorescence-lifetime mode bimetallic AuAg nanoclusters coordination glutathione NaBH4 magnesium ions reactive oxygen species (ROS) nanozymes electrochemistry sensor biological objects DNA inorganic nanoparticles biomedical fumonisin B1 bipolar electrode-electrochemiluminescence visualization Zr-MOFs 1,10-phenanthroline-5,6-dione NADH Escherichia coli rapid detection Raman spectroscopy SERS substrate rational design bioassays high-sensitivity analysis molecularly imprinted polymer multiple recognition health monitoring sweat analysis wearable device sensing platform non-invasive detection quantum tunneling probe nanogap width electrode single-molecule detection biosensor interface functionalization electro-click tetrabromobisphenol A MnO2 carbon paper modified electrode single-atom nanomaterial electrochemical sensor electrochemical aptasensor biochemical analysis disease diagnosis optical nanostructure plasmonics surface-enhanced spectroscopy sensing miniaturization artificial transmembrane channel DNA nanostructure biomedical application bionic recognition MIPs aptamers diabetic nephropathy biomarkers detection and imaging single-cell analysis biomolecules high sensitivity thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TC Biochemical engineering::TCB Biotechnology Bionic Recognition and Biosensors: A Theme Issue in Honor of Professor Hong-Yuan Chen |
| title | Bionic Recognition and Biosensors: A Theme Issue in Honor of Professor Hong-Yuan Chen |
| title_full | Bionic Recognition and Biosensors: A Theme Issue in Honor of Professor Hong-Yuan Chen |
| title_fullStr | Bionic Recognition and Biosensors: A Theme Issue in Honor of Professor Hong-Yuan Chen |
| title_full_unstemmed | Bionic Recognition and Biosensors: A Theme Issue in Honor of Professor Hong-Yuan Chen |
| title_short | Bionic Recognition and Biosensors: A Theme Issue in Honor of Professor Hong-Yuan Chen |
| title_sort | bionic recognition and biosensors a theme issue in honor of professor hong yuan chen |
| topic | droplet microfluidics single cells cell signaling profiling high spatiotemporal resolution layered double hydroxide nanoflowers immunochromatography test strip hydrophobic CdSe/ZnS QDs human chorionic gonadotropin electrochemical biosensor aptamer AuNPs/Ti3C2-MXenes cardiac troponin I myoglobin acute myocardial infarction hybrid chain reaction CRISPR-Cas9 saxitoxin fluorescent detection cataluminescence MOFs structural evaluation specific area electrochemical analysis electrochemical sensor platinum electrode glassy carbon electrode gold electrode chloride quantification bromide quantification amperometry seawater molybdenum disulfide nanozyme neuron-specific enolase electrochemical immunosensor detection Framework Nucleic Acids (FNAs) DNAzyme metal ions intracellular imaging flow cytometry biomolecular recognition DNA technology spatial pattern biosensing targeted therapy aptasensor antibiotics residue seafood sulfonamides visual detection diabetes mellitus bioelectronics exosomes electrochemistry cyclic enzyme scission hybridization chain reaction biomolecules detection mass spectrometry biosensors biometrics clinical mass spectrometry ambient ionization mass spectrometry electrochemiluminescence frameworks nanoemitters epigenetic modifications electrochemical biosensing signal amplification nanostructure modified electrodes near-infrared spectroscopy water structure extra-cellular pH intra-cellular pH partial least squares regression lily fluorophores-assisted excitation-emission matrix fluorescence alternating trilinear decomposition chemometrics fluorophores surface-enhanced Raman scattering non-noble metal nanomaterials substrate metal–organic frameworks (MOFs) glucose detection synthesis optical sensor wearable sensor emitter imaging protein biomarkers NIR-II fluorophore multichannel biosensing spectra-domain mode lifetime-domain mode fluorescence-lifetime mode bimetallic AuAg nanoclusters coordination glutathione NaBH4 magnesium ions reactive oxygen species (ROS) nanozymes electrochemistry sensor biological objects DNA inorganic nanoparticles biomedical fumonisin B1 bipolar electrode-electrochemiluminescence visualization Zr-MOFs 1,10-phenanthroline-5,6-dione NADH Escherichia coli rapid detection Raman spectroscopy SERS substrate rational design bioassays high-sensitivity analysis molecularly imprinted polymer multiple recognition health monitoring sweat analysis wearable device sensing platform non-invasive detection quantum tunneling probe nanogap width electrode single-molecule detection biosensor interface functionalization electro-click tetrabromobisphenol A MnO2 carbon paper modified electrode single-atom nanomaterial electrochemical sensor electrochemical aptasensor biochemical analysis disease diagnosis optical nanostructure plasmonics surface-enhanced spectroscopy sensing miniaturization artificial transmembrane channel DNA nanostructure biomedical application bionic recognition MIPs aptamers diabetic nephropathy biomarkers detection and imaging single-cell analysis biomolecules high sensitivity thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TC Biochemical engineering::TCB Biotechnology |
| topic_facet | droplet microfluidics single cells cell signaling profiling high spatiotemporal resolution layered double hydroxide nanoflowers immunochromatography test strip hydrophobic CdSe/ZnS QDs human chorionic gonadotropin electrochemical biosensor aptamer AuNPs/Ti3C2-MXenes cardiac troponin I myoglobin acute myocardial infarction hybrid chain reaction CRISPR-Cas9 saxitoxin fluorescent detection cataluminescence MOFs structural evaluation specific area electrochemical analysis electrochemical sensor platinum electrode glassy carbon electrode gold electrode chloride quantification bromide quantification amperometry seawater molybdenum disulfide nanozyme neuron-specific enolase electrochemical immunosensor detection Framework Nucleic Acids (FNAs) DNAzyme metal ions intracellular imaging flow cytometry biomolecular recognition DNA technology spatial pattern biosensing targeted therapy aptasensor antibiotics residue seafood sulfonamides visual detection diabetes mellitus bioelectronics exosomes electrochemistry cyclic enzyme scission hybridization chain reaction biomolecules detection mass spectrometry biosensors biometrics clinical mass spectrometry ambient ionization mass spectrometry electrochemiluminescence frameworks nanoemitters epigenetic modifications electrochemical biosensing signal amplification nanostructure modified electrodes near-infrared spectroscopy water structure extra-cellular pH intra-cellular pH partial least squares regression lily fluorophores-assisted excitation-emission matrix fluorescence alternating trilinear decomposition chemometrics fluorophores surface-enhanced Raman scattering non-noble metal nanomaterials substrate metal–organic frameworks (MOFs) glucose detection synthesis optical sensor wearable sensor emitter imaging protein biomarkers NIR-II fluorophore multichannel biosensing spectra-domain mode lifetime-domain mode fluorescence-lifetime mode bimetallic AuAg nanoclusters coordination glutathione NaBH4 magnesium ions reactive oxygen species (ROS) nanozymes electrochemistry sensor biological objects DNA inorganic nanoparticles biomedical fumonisin B1 bipolar electrode-electrochemiluminescence visualization Zr-MOFs 1,10-phenanthroline-5,6-dione NADH Escherichia coli rapid detection Raman spectroscopy SERS substrate rational design bioassays high-sensitivity analysis molecularly imprinted polymer multiple recognition health monitoring sweat analysis wearable device sensing platform non-invasive detection quantum tunneling probe nanogap width electrode single-molecule detection biosensor interface functionalization electro-click tetrabromobisphenol A MnO2 carbon paper modified electrode single-atom nanomaterial electrochemical sensor electrochemical aptasensor biochemical analysis disease diagnosis optical nanostructure plasmonics surface-enhanced spectroscopy sensing miniaturization artificial transmembrane channel DNA nanostructure biomedical application bionic recognition MIPs aptamers diabetic nephropathy biomarkers detection and imaging single-cell analysis biomolecules high sensitivity thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TC Biochemical engineering::TCB Biotechnology |
| url | ONIX_20240906_9783725814732_167 |