胡宁 | Ning Hu
胡宁 | Ning Hu
浙江大学“百人计划”研究员 博士生导师
邮箱: huning@zju.edu.cn
个人网页: https://person.zju.edu.cn/zjuhuning
教育经历
博士后 2017‒2018 塔夫茨大学工学院
博士后 2015‒2017 哈佛大学医学院
博士后 2014-2018 浙江大学生仪学院
博士 2009‒2014 浙江大学生仪学院
学士 2004‒2009 浙江大学生仪学院
研究领域及成果
1. 超分子生物传感/ Supramolecular Biosensing
2. 微纳传感调控器件/ Micro- and nano-device
3. 传感检测调控技术/ Integrated sensing-regulating technology
4. 电子集成仪器系统/ Electronic integrated instrumentation system
5. 生物医学研究应用/ Biomedical investigation and application
代表论文
1. Fang J.1, Liu D.1, Xu D.1, Wu Q.1, Li H., Li Y., Hu N.*Integrated Au-Nanoroded Biosensing and Regulating Platform for Photothermal Therapy of Bradyarrhythmia, Research, 2022. 9854342.
2. Zhang M., Xu D., Fang J., Li H., Li Y., Liu C., Cao N., Hu N.* A dynamic and quantitative biosensing assessment for electroporated membrane evolution of cardiomyocytes, Biosens. Bioelectron., 2022. 114016.
3. Fang J.1, Xu J.1, Xiang Y.1, Li H., Xu D., Xie X., Hu N.*Accurate and efficient intracellular delivery biosensing system by nanostrawed electroporation array, Biosens. Bioelectron., 2021. 194. 113583.
4. Xu D., Fang J., Zhang M., Wang H., Zhang T., Hang T., Xie X., Hu N.* Synchronized intracellular and extracellular recording of action potentials by three-dimensional nanoroded electroporation, Biosens. Bioelectron., 2021. 192. 113501.
5. Xu D., Mo J., Xie. X., Hu N.* In-Cell Nanoelectronics: Opening the Door to Intracellular Electrophysiology, Nano-Micro Lett., 2021. 13. 127.
6. Wang H.1, Li H.1, Wei X.1, Zhang T., Xiang Y., Fang J., Wu P., Xie X.*, Wang P.*, Hu N.* Recognition of high-specificity hERG K+ channel inhibitor-induced arrhythmia in cardiomyocytes by automated template matching.Microsyst. Nanoeng., 2021. 7. 24.
7. Liu X., Fang J., Huang S., Wu X., Xie X., Wang J., Liu F., Zhang M.*, Peng Z.*, Hu N.*, Tumor-on-a-chip: from bioinspired design to biomedical application. Microsyst. Nanoeng., 2021. 7(1):50.
8. Li H.1, Fang J.1, Wei X.1, Xu D.1, Zhang T., Xiang Y., Chen H., Liu F., Xie X.*, Wang P.*, Hu N.* Specific recognition of ion channel blocker by high-content cardiomyocyte electromechanical integrated correlation.Biosens. Bioelectron., 2020. 162: 112273.
9. Hu N.*, Xu D., Fang J., Li H., Mo J., Zhou M., Li B., Chen H., Zhang T., Feng J., Hang T., Xia W., Chen X., Liu X., He G., Xie X. Intracellular Recording of Cardiomyocyte Action Potentials by Nanobranched Microelectrode Array, Biosens. Bioelectron., 2020. 196.112588.
10. Wei X.1, Zhuang L.1, Li H.1, He C., Wan H., Hu N.*, Ping Wang*. Advances in Multidimensional Cardiac Biosensing Technologies: From Electrophysiology to Mechanical Motion and Contractile Force, Small, 2020. 202005828.