首页 > 信息学院 > 师资队伍 > 任豪个人简介
任豪    助理教授、研究员
所在学院 信息科学与技术学院
研究方向 微纳机电系统
联系方式 renhao@@shanghaitech.edu.cn
 
  个人简介  
2008年7月,中国科学技术大学精密机械与精密仪器系取得学士学位;
2011年7月,中国科学院光电技术研究所微细加工光学技术国家重点实验室获得硕士学位
2016年12月,美国亚利桑那州立大学电子工程系取得电子工程专业博士学位,博士师从亚利桑那州立大学工程学院副院长Junseok Chae教授并与美国工程院院士Bruce E. Rittmann教授合作。
2017年1月-2018年8月,美国亚利桑那州立大学电子工程系开展博士后研究工作
2018年9月,加入上海科技大学信息科学与技术学院,任助理教授、研究员

攻读硕士博士及博士后期间,任豪博士围绕基于微机电系统的微型微生物燃料电池、超级电容器、完全被动无线传感、穿戴式哮喘传感器、压电血液粘度传感器、MEMS微镜、硫族化合物电子器件展开系统研究,取得了一系列研究成果, 发表期刊论文24篇, 其中以第一作者或通讯作者发表于Nano Energy, Biosensors and Bioelectronics, Journal of Power Sources, Nanoscale, Microfluidics and Nanofluidics, Journal of Micromechanics and Microengineering, IEEE Transactions on Power Electronics, Micromachines等期刊。其中第一作者论文11篇(影响因子大于13.1的第一作者论文1篇,影响因子大于6.9的第一作者文章4篇)。在国际最顶级的微机电系统会议上以第一作者发表文章5篇(包括3篇IEEE MEMS年会,2篇IEEE Solid-State Sensors, Actuators and Microsystems Workshop会议)。任豪博士获得IEEE MEMS 2013的Best Poster Award Finalist奖。任豪博士应Wiley-VCH, Elsevier, CRC Press, Springer等出版商邀请,以第一作者发表著作章节5篇;应Advanced Energy Materials, Biosensors Bioelectronics, Nanoscale, IEEE Journal of Emerging and Selected Topics on Power Electronics, ACS Applied Materials and Interfaces, Sensors and Actuators, ChemSusChem等杂志的邀请审稿超过60余次。
在攻读博士期间,任豪博士提出的微型微生物燃料电池在2014年创造了微生物燃料电池领域电流与功率密度的世界纪录(2014年至今微生物燃料电池领域发表SCI文章超过3000篇),并于2016年成功将此纪录提高了超过3倍(目前此记录仍然保持)。同时,任豪博士在世界上首次提出了基于仿生控制微生物呼吸的微生物超级电容器,将微生物电化学技术的电流与功率密度提高一个数量级。
基于攻博期间取得的突出成果,任豪博士于2017年1月留校从事基于微机电系统的穿戴式传感器和基于完全被动的无线传感的博士后研究。
  主要研究内容  
基于完全被动的无线传感;基于微机电系统的微生物燃料电池和超级电容器;基于微机电系统的微生物传感器网络及其与人工智能的融合;穿戴式、植入式生物医学传感器及其与人工智能的融合;微机电系统微镜;压电传感器;新型忆阻性电子器件。
  代表性论文  

期刊论文:
 [1] Hao Ren*, He Tian, Hyung-Sool Lee, Taejin Park, Frederick C. Leung, Tian-Ling Ren and Junseok Chae, “Regulating the respiration of microbe: A bio-inspired high performance microbial supercapacitor with graphene based electrodes and its kinetic features”, Nano Energy 15 (2015) 697-708. SCI影响因子:13.12, web of science JCR 1区,中科院1区,第一作者和通讯作者;
 [2] Hao Ren*, C. I. Torres, Prathap Parameswaran, Bruce Rittmann and Junseok Chae, “Improved current and power density with a micro-scale microbial fuel cell due to a small characteristic length”, Biosensors and Bioelectronics 61 (2014) 587-592. SCI影响因子:8.17, web of science JCR 1区,中科院1区,第一作者和通讯作者;
 [3] Hao Ren*, He Tian, Cameron L. Gardner, Tian-Ling Ren and Junseok Chae, “A miniaturized microbial fuel cell with three-dimensional graphene macroporous scaffold anode demonstrating a record power density of over 10000 W m− 3”, Nanoscale 8 (2016) 3539-3547 SCI影响因子:7.23, web of science JCR 1区,中科院1区,第一作者和并列通讯作者;
 [4] Hao Ren*, Soonjae Pyo, Jae-lk Le, Forrest S. Gittleson, Frederick C. Leung, Jongbaeg Kim, Andre D. Taylor, Hyung-Sool Lee and Junseok Chae, “A high power density miniaturized microbial fuel cell having carbon nanotube anodes”, Journal of Power Sources 273 (2015) 823-830. SCI影响因子:6.95, web of science JCR 1区,中科院1区,第一作者和通讯作者;
 [5] Hao Ren, Hyung-Sool Lee, and Junseok Chae, “Miniaturizing microbial fuel cells for potential portable power sources: promises and challenges”, Microfluidics Nanofluidics 13 (2012) 353-381. SCI影响因子2.38, web of science JCR 2区,中科院2区,第一作者;
 [6] Hao Ren, Siriram Rangaswami, Hyung-sool Lee, and Junseok Chae, “Enhanced current and power density of micro-scale microbial fuel cells with ultramicroelectrode anodes”, Journal of Micromechanics and Microengineering 26 (2016) 095016 SCI影响因子1.89,web of science JCR 2区,中科院3区,第一作者和通讯作者;
 [7] Hao Ren, Fenggang Tao, Weimin Wang and Jun Yao, “An Out-of-plane Electrostatic Actuator Based on Lever Principle”, Journal of Micromechanics and Microengineering 21 (2011) 045019 SCI影响因子1.89,web of science JCR 2区,中科院3区,第一作者;
 [8] Hao Ren, Weimin Wang, Fenggang Tao and Jun Yao, “A Bi-Directional Out-of-Plane Actuator by Electrostatic Force”, Micromachines 57 (2013) 179-185. SCI影响因子2.22, web of science JCR 2区,中科院3区,第一作者;
 [9] Hao Ren, Chenming Jiang and Junseok Chae, “Effect of temperature on a miniaturized microbial fuel cell”, Micro and Nano Systems Letters 5 (1), (2017) 13;第一作者
 [10] Hao Ren, Jun Yao, Fangrong Hu and Chuankai Qiu, “Design and Analysis of a Novel Out-of-plane Actuator”, Journal of Micronanoelectronic Technology, Vol.46 No.9 546-550;第一作者
 [11] Hao Ren, Zugao Ni and Jun Yao, “A Micro Spatial Light Modulator Based on Leverage Principle”, Key Engineering Materials, 483 (2011) 137-142,EI, 第一作者
 [12] Xu Zhang, Hao Ren*, Soonjae Pyo, Jae-li Lee, Jongbaeg Kim and Junseok Chae, “A High Efficiency DC-DC Boost Converter for a Miniaturized Microbial Fuel Cell”, IEEE Transactions on Power Electronics 30 (4) (2015) 2041-2049. SCI影响因子6.81, web of science JCR 1区,中科院1区,第二作者和并列通讯作者;
 [13] Bipro Dhar, Hao Ren, Junseok Chae and Hyung-sool Lee et al., “High biofilm conductivity maintained despite change of anode potential in a Geobacter-enriched biofilm anode”, ChemSusChem 9(24) (2016) 3485-3491 SCI影响因子7.41, web of science JCR 1区,中科院1区,第二作者;
 [14] Hyung-sool Lee, Bipro R. Dhar, Junyeong An, Bruce Rittmann, Hodon Ryu, Jorge W.S. Domingo, Hao Ren and Junseok Chae, “The Roles of Biofilm Conductivity and Donor Substrate Kinetics in a Mixed-Culture Biofilm Anode”, Environmental Science and Technology 50 (23) (2016) 12799–12807 SCI影响因子6.65, web of science JCR 1区,中科院1区,第七作者;
 [15] Jennie Appel, Hao Ren Mandy Sin, Joseph Liao and Junseok Chae, “Rapid bladder cancer cell detection from clinical urine samples using an ultra-thin silicone membrane”, Analyst, 141 (2016) 652-660 SCI影响因子3.86, web of science JCR 1区,中科院2区,第二作者;
 [16] Ran Wang, Wei Wang, Hao Ren and Junseok Chae, “Detection of copper ions in drinking water using the competitive adsorption of proteins”, Biosensors and Bioelectronics 57 (2014) 179-185. SCI影响因子:8.17, web of science JCR 1区,中科院1区,第三作者;
 [17] Bipro Ranjan Dhar, Junyoung Sim, Hodon Ryu, Hao Ren, Jorge W Santo Domingo, Junseok Chae, Hyung-Sool Lee, “Microbial activity influences electrical conductivity of biofilm anode”, Water Research 127 (2017) 230-238. SCI影响因子:7.05,web of science JCR 1区,中科院1区,第四作者;
 [18] Weimin Wang, Qiang Wang, Hao Ren, Wenying Ma, Chuankai Qiu, Zexiang Chen, and Bin Fan, “Electrostatic repulsive out-of-plane actuator using conductive substrate”, Scientific Reports 6 (2016) 35118 SCI影响因子:4.12, web of science JCR 1区,中科院2区,第三作者


国际会议论文:
 [1] Hao Ren, Cesar I. Torres, Zhaofeng Zhang and Junseok Chae, “A Biological Inspired Electro-chemical Reference Electrode” IEEE International Conference on Micro-Electro-Mechanical-Systems (MEMS), pp. 354-357, Las Vegas, 2017
 [2] Hao Ren, Cesar I. Torres and Junseok Chae, “ A Bio-inspired Reference Electrode: Regulating the Respiration of Micro-organisms”, Solid-state Sensors, Actuators, and Microsystems Workshop (Hilton Head), pp. 501-504, Hilton head island, SC, 2016
 [3] Hao Ren, He Tian, Tian-Ling Ren, and Junseok Chae, “A Micro-scale Microbial Supercapacitor,” IEEE International Conference on Micro-Electro-Mechanical-Systems (MEMS), pp. 362-365, San Francisco, CA, 2014
 [4] Hao Ren and Junseok Chae, “A micro-scale microbial fule cell (MFC) having ultramicroelectrode (UME) anode,” IEEE International Conference on Micro-Electro-Mechanical-Systems (MEMS), pp. 869-872, Taipei, 2013
 [5] Hao Ren and J. Chae, “Scaling Effect on MEMS-based Microbial Fuel Cells: Toward a Carbon-neutral Miniaturized Power Source,” Solid-state Sensors, Actuators, and Microsystems Workshop (Hilton Head), pp. 501-504, Hilton head island, SC, USA, 2012.


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