教师名录
2014年12月-2019年04月,东南大学,机械工程学院,讲师
2019年04月-至今,东南大学,机械工程学院,副教授,博导1. 2023年 中国仪器仪表学会科技进步奖一等奖;
2. 2023年 江苏省仪器仪表学会科学技术奖一等奖;
3. 2019年 东南大学第十五届吾爱吾师“十大全校最受欢迎老师”;
4. 2018年 焦廷标奖教金;
1. Ke Chen, Baoyang Liu, Ning Hu, QiaolinFan,Fawang Zhan, Zhou Zhang, Zhonghua Ni, Xiao Li, Tao Hu.Abiodegradable, highly sensitive and multifunctional mechanical sensor basedonrGO-silk fibroin hydrogel for human motion detection andgesturerecognition[J]. Journal of Materials Chemistry A, 2024.
2. Jianxiong Zhu, Yaxin Yang, Hui Zhang,Zijing Zhao,Tao Hu, Lei Liu. More Than Energy Harvesting inElectretElectronics‐Movingtoward Next‐Generation Functional System[J].AdvancedFunctional Materials, 2023, 33(17): 2214859.
3. TaoHu, Jian Xu, Yi Ye,Yu Han, Xiao Li, Zhen Wang, Dongke Sun,Yunlong Zhou, Zhonghua Ni. Visualdetection of mixed organophosphorous pesticideusing QD-AChE aerogel basedmicrofluidic arrays sensor[J]. Biosensors andBioelectronics, 2019, 136:112-117.
4. TaoHu, Zeyang Bai, DiWang, Xiao Li, Zhonghua Ni.Electrochemical aptasensor based on 3D grapheneaerogel for prostate specificantigen detection[J]. Microchemical Journal,2023, 195: 109436.
5. Xiao Li, Tong Li, Baoyang Liu, NingHu, TaoHu,Zhonghua Ni. Boosting the performance of an iontophoretic biosensingsystemwith a graphene aerogel and Prussian blue for highly sensitive andnoninvasiveglucose monitoring[J]. Analyst, 2023.
6. TaoHu, Di Wang, Jian Xu,Ke Chen, Xiao Li, Hong Yi, ZhonghuaNi. Glucose sensing on screen-printedelectrochemical electrodes based on porousgraphene aerogel@ prussian blue[J].Biomedical Microdevices, 2022, 24(1): 14.
7. TaoHu, Zihao Wu, WenSang, Bo Ding, Ke Chen, Xiao Li, YangShen, Zhonghua Ni. A sensitiveelectrochemical platform integrated with a 3Dgraphene aerogel forpoint-of-care testing for tumor markers[J]. Journal ofMaterials Chemistry B,2022, 10(36): 6928-6938.
8. TaoHu,Man Zhang, HuiDong, Tong Li, Xiaobei Zang, Xiao Li,Zhonghua Ni. Free-standingMXene/chitosan/Cu2O electrode: An enzymefree andefficient biosensor forsimultaneous determination of glucose andcholesterol[J]. Journal of ZhejiangUniversity-SCIENCE A, 2022, 23(7): 579-586.
9. Xiao Li, Hui Dong, Qiaolin Fan, KeChen,Dongke Sun, TaoHu, Zhonghua Ni. One-pot, rapid microwave-assistedsynthesis ofbimetallic metal–organicframework for efficient enzyme-free glucosedetection[J]. MicrochemicalJournal, 2022, 179: 107468.
10. TaoHu, Wengen Li,Kangkai Xu, Ke Chen, Xiao Li, Hong Yi,Zhonghu Ni. Portable and intelligenturine glucose analyzer based on a CdTe QDs@GOx aerogel circular array sensor[J].ACS omega, 2021, 6(48): 3265532662.
11. Xiao Li, Man Zhang, Yujie Hu, Jian Xu,DongkeSun, TaoHu, Zhonghua Ni. Screen-printed electrochemical biosensorbasedon a ternary Co@ MoS 2/rGO functionalized electrode forhigh-performancenon-enzymatic glucose sensing[J]. Biomedical Microdevices,2020, 22: 1-8.
12. Sisi Zhou,Tao Hu, GaohuaHan, YafengWu, Xin Hua, Juan Su, Weiwei Jin, Yiping Mou, Xiaozhou Mou, QuanLi, SongqinLiu. Accurate cancer diagnosis and stage monitoring enabled bycomprehensiveprofiling of different types of exosomal biomarkers: surfaceproteins andmiRNAs[J]. Small, 2020, 16(48): 2004492.
13. Le Xue,Tao Hu, ZhenGuo, Celi Yang,Zhuoqing Wang, Siying Qin, Peilin Yang, Can Xie, Jian Xu, NuanLi, Yanfei Shen,Hui Jiang, Dawei Deng, Ning Gu, Jianfei Sun. A novelbiomimetic magnetosensorbased on magneto‐optically involved conformational variation of MagR/cry4complex[J].Advanced Electronic Materials, 2020, 6(4): 1901168.
14. Xiao Li, Man Zhang, Yujie Hu, Jian Xu,DongkeSun,TaoHu, Zhonghua Ni. Developing a versatile electrochemicalplatformwith optimized electrode configuration through screen-printingtechnology towardglucose detection[J]. Biomedical Microdevices, 2020, 22: 1-8.
15. TaoHu, Kangkai Xu,Shanhu Qiu, Yu Han, Juan Chen, Jian Xu, KeChen, Zilin Sun, Hong Yi, ZhonghuaNi. Colorimetric detection of urine glucoseusing a C/CdTe QDs–GOx aerogel based on a microfluidicassay sensor[J]. Journalof Materials Chemistry B, 2020, 8(32): 7160-7165.
16. Jian Xu, Kangkai Xu, Yu Han, Di Wang, XiaoLi,TaoHu,Hong Yi, Zhonghua Ni. A 3D porous graphene aerogel@ GOx basedmicrofluidicbiosensor for electrochemical glucose detection[J]. Analyst, 2020,145(15):5141-5147.
17. TaoHu, Man Zhang, ZhenWang, Ke Chen, Xiao Li, Zhonghua Ni.Layer-by-layer self-assembly of MoS2/PDDAhybrid film in microfluidic chips forultrasensitive electrochemicalimmunosensing of alphafetoprotein[J].Microchemical Journal, 2020, 158: 105209.
18. TaoHu, Wen Sang, KeChen, Hongxi Gu, Zhonghua Ni, Shaoqin Liu.Simple and sensitive colorimetric detectionof a trace amount of 2, 4,6trinitrotoluene (TNT) with QD multilayer-modifiedmicrochannel assays[J].Materials Chemistry Frontiers, 2019, 3(2): 193-198.
19. Xiao Li, Kaibing Ren, Man Zhang, WenSang,Dongke Sun,TaoHu, Zhonghua Ni. Cobalt functionalized MoS2/carbonnanotubesscaffold for enzyme-free glucose detection with extremely lowdetectionlimit[J]. Sensors and Actuators B: Chemical, 2019, 293: 122-128.
20. Sisi Zhou, Tao Hu, FenZhang, DezhiTang, Dake Li, Jian Cao, Wei Wei, Yafeng Wu, Songqin Liu.Integratedmicrofluidic device for accurate extracellular vesiclequantification andprotein markers analysis directly from human whole blood[J].Analytical chemistry,2019, 92(1): 1574-1581.
21. TaoHu, Zhen Wang, PengLv, Ke Chen, Zhonghua Ni. One-potsynthesis of a highly selectivecarboxyl-functionalized superparamagnetic probesfor detection ofalpha-fetoprotein[J]. Sensors and Actuators B: Chemical, 2018,266: 270-275.
22. TaoHu, Benjamin P.Isaacoff, Joong Hwan Bahng, Changlong Hao,Yunlong Zhou, Jian Zhu, Kai Sun,Xinyu Li, Zhenlong Wang, Shaoqin Liu, ChuanlaiXu, Julie S. Biteen, Nicholas A.Kotov, Self-Organization of Plasmonic andExcitonic Nanoparticles into ResonantChiral Supraparticle Assemblies, NanoLetters, 2014, 14, 6799-6810.
23. TaoHu, Xuefeng Liu,Shaoqin Liu, Zhenlong Wang, Zhiyong Tang,Toward Understanding of TransferMechanism between Electrochemiluminescent Dyesand Luminescent Quantum Dots.Analytical Chemistry, 2014, 86,3939-3946.
24. TaoHu, Tangsong Li, LangYuan, Shaoqin Liu, Zhenlong Wang,Anodic Electrogenerated Chemiluminescence ofQuantum Dots: Sizes and StabilizersMatter, Nanoscale, 2012, 4, 5447-5453.
项目名称 | 项目类别 | 项目时间 | 工作类别 | 项目金额 |
低丰度外泌体的原位富集与多参量精准检测技术研究 | 国家自然科学基金面上基金 | 2024.01-2027.12 | 项目主持人 | 50万 |
高精度尿糖检测仪的关键技术开发 | 企业委托项目 | 2022.05-2024.05 | 项目主持人 | 170万 |
重金属离子电化学检测关键技术研发 | 企业委托项目 | 2023.04-2024.05 | 项目主持人 | 50万 |
针对外泌体分离检测的三维微流控芯片的制备方法与特性研究 | 江苏省自然科学基金(面上基金) | 2020.07-2023.06 | 项目主持人 | 10万 |
一种针对葡萄糖的量子点气凝胶微传感器、其量子点气凝胶的制备方法及其应用等1项发明转让 | 成果转化项目 | 2022.05-2022.07 | 项目主持人 | 30万 |
面向肿瘤标志物检测的三维纳米传感器制备方法与特性研究 | 国家自然科学基金青年基金 | 2017.01-2019.12 | 项目主持人 | 24万 |
三维多孔石墨烯微传感器的可控制备及传感性能研究 | 江苏省自然科学基金(青年基金) | 2015.07-2018.07 | 项目主持人 | 20万 |
糖尿病的危险因素早期识别、早期诊断技术与切点研究 | 国家重点研发计划 | 2016.12-2021.12 | 项目骨干 | 600万 |
面向稀有循环肿瘤细胞的标记精准检测仪器研制 | 国家自然科学基金重大科研仪器研制项目 | 2018.01-2022.12 | 项目骨干 | 690万 |
面向糖尿病研究的血糖血脂无创监测核磁共振仪器的研制 | 国家重大科研仪器研制项目 | 2017.01-2021.01 | 项目骨干 | 660万 |
专利号 | 专利名称 | 完成时间 | 专利类型 |
CN202111044716.8 | 一种无创血糖检测电极贴片及其制造方法和反离子电渗体外实验装置 | 2022.11.11 | 发明专利授权 |
CN201910778027.6 | 针对葡萄糖的双色比率型量子点气凝胶微传感器及其应用 | 2021.09.28 | 发明专利授权 |
CN201910244340.1 | 二硫化钼层层自组装薄膜微流控芯片及制备方法 | 2021.07.27 | 发明专利授权 |
ZL201610894834.0 | 一种针对葡萄糖的量子点气凝胶微传感器、其量子点气凝胶的制备方法及其应用 | 2019.05.31 | 发明专利授权 |
1. Ke Chen, Baoyang Liu, Ning Hu, QiaolinFan,Fawang Zhan, Zhou Zhang, Zhonghua Ni, Xiao Li, Tao Hu.Abiodegradable, highly sensitive and multifunctional mechanical sensor basedonrGO-silk fibroin hydrogel for human motion detection andgesturerecognition[J]. Journal of Materials Chemistry A, 2024.
2. Jianxiong Zhu, Yaxin Yang, Hui Zhang,Zijing Zhao,Tao Hu, Lei Liu. More Than Energy Harvesting inElectretElectronics‐Movingtoward Next‐Generation Functional System[J].AdvancedFunctional Materials, 2023, 33(17): 2214859.
3. TaoHu, Jian Xu, Yi Ye,Yu Han, Xiao Li, Zhen Wang, Dongke Sun,Yunlong Zhou, Zhonghua Ni. Visualdetection of mixed organophosphorous pesticideusing QD-AChE aerogel basedmicrofluidic arrays sensor[J]. Biosensors andBioelectronics, 2019, 136:112-117.
4. TaoHu, Zeyang Bai, DiWang, Xiao Li, Zhonghua Ni.Electrochemical aptasensor based on 3D grapheneaerogel for prostate specificantigen detection[J]. Microchemical Journal,2023, 195: 109436.
5. Xiao Li, Tong Li, Baoyang Liu, NingHu, TaoHu,Zhonghua Ni. Boosting the performance of an iontophoretic biosensingsystemwith a graphene aerogel and Prussian blue for highly sensitive andnoninvasiveglucose monitoring[J]. Analyst, 2023.
6. TaoHu, Di Wang, Jian Xu,Ke Chen, Xiao Li, Hong Yi, ZhonghuaNi. Glucose sensing on screen-printedelectrochemical electrodes based on porousgraphene aerogel@ prussian blue[J].Biomedical Microdevices, 2022, 24(1): 14.
7. TaoHu, Zihao Wu, WenSang, Bo Ding, Ke Chen, Xiao Li, YangShen, Zhonghua Ni. A sensitiveelectrochemical platform integrated with a 3Dgraphene aerogel forpoint-of-care testing for tumor markers[J]. Journal ofMaterials Chemistry B,2022, 10(36): 6928-6938.
8. TaoHu,Man Zhang, HuiDong, Tong Li, Xiaobei Zang, Xiao Li,Zhonghua Ni. Free-standingMXene/chitosan/Cu2O electrode: An enzymefree andefficient biosensor forsimultaneous determination of glucose andcholesterol[J]. Journal of ZhejiangUniversity-SCIENCE A, 2022, 23(7): 579-586.
9. Xiao Li, Hui Dong, Qiaolin Fan, KeChen,Dongke Sun, TaoHu, Zhonghua Ni. One-pot, rapid microwave-assistedsynthesis ofbimetallic metal–organicframework for efficient enzyme-free glucosedetection[J]. MicrochemicalJournal, 2022, 179: 107468.
10. TaoHu, Wengen Li,Kangkai Xu, Ke Chen, Xiao Li, Hong Yi,Zhonghu Ni. Portable and intelligenturine glucose analyzer based on a CdTe QDs@GOx aerogel circular array sensor[J].ACS omega, 2021, 6(48): 3265532662.
11. Xiao Li, Man Zhang, Yujie Hu, Jian Xu,DongkeSun, TaoHu, Zhonghua Ni. Screen-printed electrochemical biosensorbasedon a ternary Co@ MoS 2/rGO functionalized electrode forhigh-performancenon-enzymatic glucose sensing[J]. Biomedical Microdevices,2020, 22: 1-8.
12. Sisi Zhou,Tao Hu, GaohuaHan, YafengWu, Xin Hua, Juan Su, Weiwei Jin, Yiping Mou, Xiaozhou Mou, QuanLi, SongqinLiu. Accurate cancer diagnosis and stage monitoring enabled bycomprehensiveprofiling of different types of exosomal biomarkers: surfaceproteins andmiRNAs[J]. Small, 2020, 16(48): 2004492.
13. Le Xue,Tao Hu, ZhenGuo, Celi Yang,Zhuoqing Wang, Siying Qin, Peilin Yang, Can Xie, Jian Xu, NuanLi, Yanfei Shen,Hui Jiang, Dawei Deng, Ning Gu, Jianfei Sun. A novelbiomimetic magnetosensorbased on magneto‐optically involved conformational variation of MagR/cry4complex[J].Advanced Electronic Materials, 2020, 6(4): 1901168.
14. Xiao Li, Man Zhang, Yujie Hu, Jian Xu,DongkeSun,TaoHu, Zhonghua Ni. Developing a versatile electrochemicalplatformwith optimized electrode configuration through screen-printingtechnology towardglucose detection[J]. Biomedical Microdevices, 2020, 22: 1-8.
15. TaoHu, Kangkai Xu,Shanhu Qiu, Yu Han, Juan Chen, Jian Xu, KeChen, Zilin Sun, Hong Yi, ZhonghuaNi. Colorimetric detection of urine glucoseusing a C/CdTe QDs–GOx aerogel based on a microfluidicassay sensor[J]. Journalof Materials Chemistry B, 2020, 8(32): 7160-7165.
16. Jian Xu, Kangkai Xu, Yu Han, Di Wang, XiaoLi,TaoHu,Hong Yi, Zhonghua Ni. A 3D porous graphene aerogel@ GOx basedmicrofluidicbiosensor for electrochemical glucose detection[J]. Analyst, 2020,145(15):5141-5147.
17. TaoHu, Man Zhang, ZhenWang, Ke Chen, Xiao Li, Zhonghua Ni.Layer-by-layer self-assembly of MoS2/PDDAhybrid film in microfluidic chips forultrasensitive electrochemicalimmunosensing of alphafetoprotein[J].Microchemical Journal, 2020, 158: 105209.
18. TaoHu, Wen Sang, KeChen, Hongxi Gu, Zhonghua Ni, Shaoqin Liu.Simple and sensitive colorimetric detectionof a trace amount of 2, 4,6trinitrotoluene (TNT) with QD multilayer-modifiedmicrochannel assays[J].Materials Chemistry Frontiers, 2019, 3(2): 193-198.
19. Xiao Li, Kaibing Ren, Man Zhang, WenSang,Dongke Sun,TaoHu, Zhonghua Ni. Cobalt functionalized MoS2/carbonnanotubesscaffold for enzyme-free glucose detection with extremely lowdetectionlimit[J]. Sensors and Actuators B: Chemical, 2019, 293: 122-128.
20. Sisi Zhou, Tao Hu, FenZhang, DezhiTang, Dake Li, Jian Cao, Wei Wei, Yafeng Wu, Songqin Liu.Integratedmicrofluidic device for accurate extracellular vesiclequantification andprotein markers analysis directly from human whole blood[J].Analytical chemistry,2019, 92(1): 1574-1581.
21. TaoHu, Zhen Wang, PengLv, Ke Chen, Zhonghua Ni. One-potsynthesis of a highly selectivecarboxyl-functionalized superparamagnetic probesfor detection ofalpha-fetoprotein[J]. Sensors and Actuators B: Chemical, 2018,266: 270-275.
22. TaoHu, Benjamin P.Isaacoff, Joong Hwan Bahng, Changlong Hao,Yunlong Zhou, Jian Zhu, Kai Sun,Xinyu Li, Zhenlong Wang, Shaoqin Liu, ChuanlaiXu, Julie S. Biteen, Nicholas A.Kotov, Self-Organization of Plasmonic andExcitonic Nanoparticles into ResonantChiral Supraparticle Assemblies, NanoLetters, 2014, 14, 6799-6810.
23. TaoHu, Xuefeng Liu,Shaoqin Liu, Zhenlong Wang, Zhiyong Tang,Toward Understanding of TransferMechanism between Electrochemiluminescent Dyesand Luminescent Quantum Dots.Analytical Chemistry, 2014, 86,3939-3946.
24. TaoHu, Tangsong Li, LangYuan, Shaoqin Liu, Zhenlong Wang,Anodic Electrogenerated Chemiluminescence ofQuantum Dots: Sizes and StabilizersMatter, Nanoscale, 2012, 4, 5447-5453.
项目名称 | 项目类别 | 项目时间 | 工作类别 | 项目金额 |
低丰度外泌体的原位富集与多参量精准检测技术研究 | 国家自然科学基金面上基金 | 2024.01-2027.12 | 项目主持人 | 50万 |
高精度尿糖检测仪的关键技术开发 | 企业委托项目 | 2022.05-2024.05 | 项目主持人 | 170万 |
重金属离子电化学检测关键技术研发 | 企业委托项目 | 2023.04-2024.05 | 项目主持人 | 50万 |
针对外泌体分离检测的三维微流控芯片的制备方法与特性研究 | 江苏省自然科学基金(面上基金) | 2020.07-2023.06 | 项目主持人 | 10万 |
一种针对葡萄糖的量子点气凝胶微传感器、其量子点气凝胶的制备方法及其应用等1项发明转让 | 成果转化项目 | 2022.05-2022.07 | 项目主持人 | 30万 |
面向肿瘤标志物检测的三维纳米传感器制备方法与特性研究 | 国家自然科学基金青年基金 | 2017.01-2019.12 | 项目主持人 | 24万 |
三维多孔石墨烯微传感器的可控制备及传感性能研究 | 江苏省自然科学基金(青年基金) | 2015.07-2018.07 | 项目主持人 | 20万 |
糖尿病的危险因素早期识别、早期诊断技术与切点研究 | 国家重点研发计划 | 2016.12-2021.12 | 项目骨干 | 600万 |
面向稀有循环肿瘤细胞的标记精准检测仪器研制 | 国家自然科学基金重大科研仪器研制项目 | 2018.01-2022.12 | 项目骨干 | 690万 |
面向糖尿病研究的血糖血脂无创监测核磁共振仪器的研制 | 国家重大科研仪器研制项目 | 2017.01-2021.01 | 项目骨干 | 660万 |
专利号 | 专利名称 | 完成时间 | 专利类型 |
CN202111044716.8 | 一种无创血糖检测电极贴片及其制造方法和反离子电渗体外实验装置 | 2022.11.11 | 发明专利授权 |
CN201910778027.6 | 针对葡萄糖的双色比率型量子点气凝胶微传感器及其应用 | 2021.09.28 | 发明专利授权 |
CN201910244340.1 | 二硫化钼层层自组装薄膜微流控芯片及制备方法 | 2021.07.27 | 发明专利授权 |
ZL201610894834.0 | 一种针对葡萄糖的量子点气凝胶微传感器、其量子点气凝胶的制备方法及其应用 | 2019.05.31 | 发明专利授权 |