教师名录
我的研究面向疾病的早期诊断,围绕生物标记物分析、高通量检测、生物传感器设计与制造展开。相关成果发表在Lab on aChip、Analytical Chemistry等本领域高水平期刊上。欢迎对生物传感器设计、微尺度传热传质等研究感兴趣的同学与我联系。
2018/03 – 今,437必赢会员中心,437必赢会员中心,讲师
2016/08 – 2017/05,美国阿克伦大学,437必赢会员中心,博士后
1. 流体力学;
2. 计算机综合课程设计;
•Lab on a Chip
•RSC Advances
•Electrophoresis
•Journal of Micromechanics and Microengineering
•ASME Fluids Engineering Division Summer Conference
•ASME 4th FEDSM
•ASME IMECE
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[1]Han Y.,Zhong C., Zhu X. and Zhe J.* Online monitoring of dynamic tip clearance ofturbine blades in high temperature environments[J]. Meas Sci Technol.2018,29(4)
[2]Han Y.#,Wu H.#, Cheng G.* and Zhe J.* A two-stage microresistive pulseimmunosensor for pathogen detection[J]. Lab Chip,2016,16(4):773-779.
[3]Han Y.#,Wu H.#, Liu F., Cheng G.* and Zhe J.* A multiplexedimmunoaggregation biomarker assay using a two-stage micro resistive pulsesensor[J]. Biomicrofluidics, 2016,10(2):024109.
[4]Han Y.#,Liu F.#, Zhao L. and Zhe J.* An automatic and portable prostheticcooling device with high cooling capacity based on phase change[J]. ApplTherm Eng, 2016,104:243-248.
[5]Han Y.,Liu F., Dowd G. and Zhe J.* A thermal management device for a lower-limbprosthesis[J]. Appl Therm Eng, 2015,82:246-252.
[6]Han Y.#,Wu H.#, Liu F., Cheng G.* and Zhe J.* Label-free biomarker assay ina microresistive pulse sensor via immunoaggregation[J]. Anal Chem,2014,86(19):9717-9722.
[7]XiangN.*, Wang J., Li Q., Han Y., Huang D.* and Ni Z.H.* Precise Size-Based CellSeparation via the Coupling of Inertial Microfluidics and Deterministic LateralDisplacement[J]. Anal Chem. 2019,91(15):10328-10334.
[8]Hu T.,Xu J., Ye Y., Han Y., Li X., Wang Z., Sun D.*, Zhou Y.* and Ni Z.* Visualdetection of mixed organophosphorous pesticide using QD-AChE aerogel basedmicrofluidic arrays sensor[J]. Biosensors Bioelectron,2019,136:112-117.
[9]WuH.Y., Lee C.J., Wang H.F., Hu Y., Young M., Han Y., Xu F.J., Cong H.B.* andCheng G.* Highly sensitive and stable zwitterionicpoly(sulfobetaine-3,4-ethylenedioxythiophene) (PSBEDOT) glucose biosensor[J]. ChemSci,2018,9(9):2540-2546.
[10]Liu F.,Han Y., Du L., Huang P. and Zhe J.* Airborne mineral dust measurement using anintegrated microfluidic device[J]. Microfluid Nanofluid,2016,20(1)
[11]FanL.L., He X.K., Han Y., Zhe J.* and Zhao L.* Continuous 3D particle focusing ina microchannel with curved and symmetric sharp corner structures[J]. JMicromech Microeng, 2015,25(3):10.
[12]Wu H.,Han Y., Yang X., Chase G.G., Tang Q., Lee C.J., Cao B., Zhe J.* and Cheng G.* Aversatile microparticle-based immunoaggregation assay for macromolecularbiomarker detection and quantification[J]. PLoS ONE,2015,10(2):e0115046.
[13]FanL.L., Han Y., He X.K., Zhao L.* and Zhe J.* High-throughput, single-streammicroparticle focusing using a microchannel with asymmetric sharp corners[J]. MicrofluidNanofluid, 2014,17(4):639-646.
[14]FanL.-L., He X.-K., Han Y., Du L., Zhao L. and Zhe J.* Continuous size-basedseparation of microparticles in a microchannel with symmetric sharp cornerstructures[J]. Biomicrofluidics, 2014,8(2)
[15]Du L.,Zhu X., Han Y. and Zhe J.* High Throughput Wear Debris Detection in LubricantsUsing a Resonance Frequency Division Multiplexed Sensor[J]. Tribol Lett,2013,51(3):453-460.
[16]Du L.,Zhu X., Han Y., Zhao L. and Zhe J.* Improving sensitivity of an inductive pulsesensor for detection of metallic wear debris in lubricants using parallel LCresonance method[J]. Meas Sci Technol, 2013,24(7)
电阻抗编解码微颗粒及多重免疫检测芯片 基本科研业务费-高水平论文项目 2018/04 - 2019/10
高通量流式细胞免疫检测关键技术研究 南京市留学人员科技创新项目 2019/06 - 至今
无
我的研究面向疾病的早期诊断,围绕生物标记物分析、高通量检测、生物传感器设计与制造展开。相关成果发表在Lab on aChip、Analytical Chemistry等本领域高水平期刊上。欢迎对生物传感器设计、微尺度传热传质等研究感兴趣的同学与我联系。
[1]Han Y.,Zhong C., Zhu X. and Zhe J.* Online monitoring of dynamic tip clearance ofturbine blades in high temperature environments[J]. Meas Sci Technol.2018,29(4)
[2]Han Y.#,Wu H.#, Cheng G.* and Zhe J.* A two-stage microresistive pulseimmunosensor for pathogen detection[J]. Lab Chip,2016,16(4):773-779.
[3]Han Y.#,Wu H.#, Liu F., Cheng G.* and Zhe J.* A multiplexedimmunoaggregation biomarker assay using a two-stage micro resistive pulsesensor[J]. Biomicrofluidics, 2016,10(2):024109.
[4]Han Y.#,Liu F.#, Zhao L. and Zhe J.* An automatic and portable prostheticcooling device with high cooling capacity based on phase change[J]. ApplTherm Eng, 2016,104:243-248.
[5]Han Y.,Liu F., Dowd G. and Zhe J.* A thermal management device for a lower-limbprosthesis[J]. Appl Therm Eng, 2015,82:246-252.
[6]Han Y.#,Wu H.#, Liu F., Cheng G.* and Zhe J.* Label-free biomarker assay ina microresistive pulse sensor via immunoaggregation[J]. Anal Chem,2014,86(19):9717-9722.
[7]XiangN.*, Wang J., Li Q., Han Y., Huang D.* and Ni Z.H.* Precise Size-Based CellSeparation via the Coupling of Inertial Microfluidics and Deterministic LateralDisplacement[J]. Anal Chem. 2019,91(15):10328-10334.
[8]Hu T.,Xu J., Ye Y., Han Y., Li X., Wang Z., Sun D.*, Zhou Y.* and Ni Z.* Visualdetection of mixed organophosphorous pesticide using QD-AChE aerogel basedmicrofluidic arrays sensor[J]. Biosensors Bioelectron,2019,136:112-117.
[9]WuH.Y., Lee C.J., Wang H.F., Hu Y., Young M., Han Y., Xu F.J., Cong H.B.* andCheng G.* Highly sensitive and stable zwitterionicpoly(sulfobetaine-3,4-ethylenedioxythiophene) (PSBEDOT) glucose biosensor[J]. ChemSci,2018,9(9):2540-2546.
[10]Liu F.,Han Y., Du L., Huang P. and Zhe J.* Airborne mineral dust measurement using anintegrated microfluidic device[J]. Microfluid Nanofluid,2016,20(1)
[11]FanL.L., He X.K., Han Y., Zhe J.* and Zhao L.* Continuous 3D particle focusing ina microchannel with curved and symmetric sharp corner structures[J]. JMicromech Microeng, 2015,25(3):10.
[12]Wu H.,Han Y., Yang X., Chase G.G., Tang Q., Lee C.J., Cao B., Zhe J.* and Cheng G.* Aversatile microparticle-based immunoaggregation assay for macromolecularbiomarker detection and quantification[J]. PLoS ONE,2015,10(2):e0115046.
[13]FanL.L., Han Y., He X.K., Zhao L.* and Zhe J.* High-throughput, single-streammicroparticle focusing using a microchannel with asymmetric sharp corners[J]. MicrofluidNanofluid, 2014,17(4):639-646.
[14]FanL.-L., He X.-K., Han Y., Du L., Zhao L. and Zhe J.* Continuous size-basedseparation of microparticles in a microchannel with symmetric sharp cornerstructures[J]. Biomicrofluidics, 2014,8(2)
[15]Du L.,Zhu X., Han Y. and Zhe J.* High Throughput Wear Debris Detection in LubricantsUsing a Resonance Frequency Division Multiplexed Sensor[J]. Tribol Lett,2013,51(3):453-460.
[16]Du L.,Zhu X., Han Y., Zhao L. and Zhe J.* Improving sensitivity of an inductive pulsesensor for detection of metallic wear debris in lubricants using parallel LCresonance method[J]. Meas Sci Technol, 2013,24(7)
无
电阻抗编解码微颗粒及多重免疫检测芯片 基本科研业务费-高水平论文项目 2018/04 - 2019/10
高通量流式细胞免疫检测关键技术研究 南京市留学人员科技创新项目 2019/06 - 至今
无