馬漢彬  研究員  

研究方向:

電子郵件:mahb@sibet.ac.cn

電       話:(0512) 69588081

通訊地址:蘇州高新區科靈路88號

簡       歷:

2008年本科畢業于吉林大學電子科學與工程學院,同年加入中科院蘇州納米技術與納米仿生研究所系統集成部,從事CMOS傳感器芯片開發工作。2009年前往英國倫敦大學學院攻讀納米技術碩士,2010年進入劍橋大學電子工程系攻讀博士學位。2013年,獲得了由中國國家留學基金委頒發的國家優秀自費留學生獎。20144月獲得博士學位,繼續留任研究助理,進行研發及學生培養等工作。后受到艾薩克牛頓基金會支持,以牛頓研究員的身份在劍橋大學進行阻抗式低成本生物傳感器及探測系統研發工作。2018年初,加入中國科學院蘇州生物醫學工程技術研究所,所微納加工平臺負責人。發表SCI期刊論文20余篇,申請專利30余項,其中2項英國專利、4項中國發明專利獲得授權。

獲獎及榮譽:

社會任職:

研究方向:

  

  基于先進半導體制造工藝、薄膜電子技術的陣列式生物芯片、生物傳感器系統開發。   

  ·陣列式電化學生物檢測平臺 

  通過類似平板顯示像素的驅動電路,配合基于薄膜晶體管的放大器像素電路,有能力實現大面積、高通量的陣列式阻抗生物傳感器的制備。 

  ·數字微流控芯片及平臺 

  利用電潤濕數字微流控技術,實現片上全流程生物反應。利用薄膜晶體管像素開關陣列,實現在大規模陣列上的高通量生物樣本精準操控。 

  

承擔項目情況:

代表論著:

--2020--

[24] G Yao, H Ma*, S Sambandan, J Robertson and A Nathan, “Indium silicon oxide TFT fully photolithographically processed for circuit integration”, IEEE Journal of the Electron Devices Society, online

[23] W Hou, S Hu, K-T Yong, J Zhang* and H Ma*, “Cigarette smoke-induced malignant transformation via STAT3 signalling in pulmonary epithelial cells in a lung-on-a-chip model”, Bio-Design and Manufacturing, 2020, online

[22] S Hu, B Zhang, S Zeng, L Liu, K-T Yong, H Ma* and Tang Y, “Microfluidic Chips Enabled One-step Synthetization of Biofunctionalized CuInS2/ZnS Quantum Dots”, Lab on a chip, 2020, 20, 3001

[21] C Zhang, Y Su, S Hu, K Jin, Y Jie, W Li, A Nathan and H Ma*. “An impedance sensing platform for monitoring heterogeneous connectivity and diagnostics in lab-on-a-chip systems”, ACS omega 5 (10), 5098-5104

[20] H Ma*, S Hu, Y Jie, K Jin and Y Su*. “A floating top-electrode electrowetting-on-dielectric system”, RSC Advances 10 (9), 4899-4906

[19] K Jin, P Zhao, W Fang, Y Zhai, S Hu, H Ma and J Li. “An Impedance Sensor in Detection of Immunoglobulin G with Interdigitated Electrodes on Flexible Substrate”. Applied Sciences 10 (11), 4012

 

--2019--

[18] K Jin, S Hu, Y Su, C Yang, J Li* and H Ma*.Disposable impedance-based immunosensor array with direct-laser writing platform”, Analytica Chimica Acta 1067, 48-55

[17] S Hu, Y Ren, Y Wang, J Li, J Qu, L Liu*, H Ma* and Y Tang. “Surface plasmon resonance enhancement of photoluminescence intensity and bioimaging application of gold nanorod@CdSe/ZnS quantum dots” Beilstein Journal of Nanotechnology, 2019, 10, 22-31

[16] C Jiang, H W Choi, X Cheng, H Ma, D G.Hasko and A Nathan*. “Printed subthreshold organic transistors operating at high gain and ultralow power” Science, 2019, 363(6248), pp 719-723

[15] W Hou, S Hu, C Li, H Ma, Q Wang, G Meng, T Guo, J Zhang. “Cigarette smoke induced lung barrier dysfunction, EMT, and tissue remodeling: a possible link between COPD and lung cancer”. BioMed Research International 2019

 

--2019--

[14] C. Day, S. Sopstad, H. Ma, C. Jiang, A. Nathan, S.R. Elliott, F.E. Karet Frankl and T. Hutter*. “Impedance-based sensor for potassium ions” Analytica Chimica Acta, 2018, 1034, pp 39-45

[13] Y Su, H Li, H Ma, H Wang, J Robertson, A Nathan. “Dye-Assisted Transformation of Cu2O Nanocrystals to Amorphous CuxO Nanoflakes for Enhanced Photocatalytic Performance”. ACS omega 3 (2), 1939-1945

[12] Z Guo, L Zhou, Y Tang, L Li, Z Zhang, H Yang, H Ma, A Nathan, D Zhao. “Surface/Interface Carrier-Transport Modulation for Constructing Photon-Alternative Ultraviolet Detectors Based on Self-Bending-Assembled ZnO NanowiresACS Applied Materials & Interfaces 9 (36), 31042-31053

[11] C Jiang, H Ma, D G.Hasko, X Guo and A Nathan. “A Lewis-Acid Monopolar Gate Dielectric for All-Inkjet-Printed Highly Bias-Stress Stable Organic Transistors.” Advanced Electronic Materials, 2017,3,1700029

[10] Y Su, H Li, H Ma, J Robertson, A Nathan*. "Controlling surface termination and facet orientation in Cu2O nanoparticles for high photocatalytic activity: a combined experimental and density functional theory study." ACS Applied Materials & Interfaces, 2017, 9(9), pp 8100-8106

[9]   S Gao, X Wu, H Ma, J Robertson, A Nathan. “Ultrathin multifunctional graphene-PVDF layers for multidimensional touch interactivity for flexible displaysACS Applied Materials & Interfaces 9 (22), 18410-18416

[8]   H Ma, Y Su, C Jiang and A Nathan*. "Inkjet-printed Ag electrodes on paper for high sensitivity impedance measurements." RSC Advances 6 (87), 84547-84552

[7]   L Feng, C Jiang, H Ma, X Guo and A Nathan*. "All ink-jet printed low voltage organic field-effect transistors on flexible substrate." Organic Electronics 38, 186-192

[6]   C Jiang, H Ma, D G. Hasko, and A Nathan*. "Influence of polarization on contact angle saturation during electrowetting." Applied Physics Letters 109, no. 21 (2016): 211601

[5]   C Tsangarides, H Ma and A Nathan*. "ZnO nanowire array growth on precisely controlled patterns of inkjet-printed zinc acetate at low-temperatures." Nanoscale 8 (22), 11760-11765

[4]   Y Su, A Nathan, H Ma, H Wang. “Precise control of Cu2O nanostructures and LED-assisted photocatalysisRSC Advances 6 (81), 78181-78186

[3]   H Ma, J Li, X Cheng and A Nathan*. "Heterogeneously integrated impedance measuring system with disposable thin-film electrodes." Sensors and Actuators B: Chemical 211 (2015): 77-82

[2]   H Ma, Y Su and A Nathan*. "Cell constant studies of bipolar and tetrapolar electrode systems for impedance measurement." Sensors and Actuators B: Chemical (2015): 1264-1270

[1]   H Ma, R Wallbank, R Chaji, J Li, Y Suzuki, C Jiggins and A Nathan*. "An impedance-based integrated biosensor for suspended DNA characterization." Scientific Report, Nature Publishing Group, 3:2730

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