Associate Prof HOU Huijie

Associate Prof HOU Huijie

?HuoHuijie-web
Name: Hou Huijie?????????? 侯慧杰
Title: Associate Professor, PhD Supervisor
Department: Department of Environmental Engineering
Research Interest: Microbial electrochemical systems; Microsensors for environmental applications;
Phone +86 27 87793948 – Ext. 802
Email: Houhuijie – AT- hust.edu.cn

1. Brief Curriculum Vitae

Dr. Huijie Hou is an associate professor in Dept. Environmental Engineering at Huazhong University of Science and Technology, and she is also the recipient of “Huazhong” Scholor. Her research interests cover mainly microbial electrochemical systems for wastewater treatment, microsensors for environmental applications and advanced oxidation processes (AOPs) for wastewater treatment. She has published more than 20 papers in leading journals including Advanced Materials, Trends in Biotechnology, Lab Chip, etc.

2. Education

Sep. 2006 – Sep. 2011 Ph.D. in Electrical Engineering
Advisor: Dr. Arum Han (Director of NanoBio Systems Lab)
Department of Electrical and Computer Engineering
Texas A&M University (Texas, USA)
Sep. 2003 – Mar. 2006 M.E. in Optical Engineering
Advisor: Dr. Guoguang Yang (State Key lab of Modern Optics and Instruments)
Department of Optical Engineering
Zhejiang University (Zhejiang, China)
Sep. 1999 – Jul. 2003 B.E. in Optical and Electrical Engineering
Advisor: Dr. Guoguang Yang (State Key lab of Modern Optics and Instruments)
Department of Optical Engineering Zhejiang University (Zhejiang, China)

3. Positions and Employment

Apr.2015 – present Associate professor, Huazhong Scholar
School of Environmental Science and Technology,
Huazhong University of Science and Technology (Wuhan, China)
Jul. 2012 – Feb. 2014 Postdoc Researcher
Advisor: Dr. Bruce E. Logan (Member of the National Academy of Engineering)
Department of Civil and Environmental Engineering
Pennsylvania State University (Pennsylvania, USA)
Sep. 2011 – Jun. 2012 Postdoc Researcher
Advisor: Dr. Guillermo C. Bazan (Director of Center for Polymers and Organic Solids)
Department of Materials and Chemistry & Biochemistry
University of California, Santa Barbara (California, USA)

4. Publications

Journal articles
[1] J. Chen, D. Zhong, H. Hou, C. Li, J. Yang, H. Zhou, L. Hu, L. Wang, “Ferrite as an effective catalyst for HCB removal in soil: Characterization and catalytic performance”, Chemical Engineering Journal, 2016(294), 246-253
[2] X. Yuan, J. Hu, J. Xu, Y. Hu, W. Zhang, J. Dong, S. Liang, H. Hou, X. Wu, “The effect of barium sulfate-doped lead oxide as a positive active material on the performance of lead acid batteries”, RSC Advances 2016(6), 27205-27212
[3] J. Liu, H Hou*, X. Chen, G.C. Bazan, H. Kashima, B.E. Logan*, “Conjugated oligoelectrolyte represses hydrogen oxidation by Geobacter sulfurreducens in microbial electrolysis cells”, Bioelectrochemistry 2015(106), 379-382
[4] C. Erbay, X. Pu, W. Choi, M. -J. Choi, Y. Ryu, H. Hou, F. Lin, P. de Figueiredo, C. Yu, and A. Han*, “Control of Geometrical Properties of Carbon Nanotube Electrodes towards High-Performance Microbial Fuel Cells”, J. Power Sources, 2015(280), 347-354
[5] R Fei, H Hou, D Munoz‐Pinto, A Han, MS Hahn, MA Grunlan,”Thermoresponsive Double Network Micropillared Hydrogels for Controlled Cell Release”, Macromolecular bioscience, 2014(14), 1346-135
[6] H. Hou, X. Chen, J. Liu, X. Zhu, G. C. Bazan, and B. E. Logan, “Repression of Hydrogen Uptake using Conjugated Oligoelectrolyte in Microbial Electrolysis Cells”, Int. J. Hydrogen Energ. 2014 (39), 19407-19415
[7] J. Liu, G. M. Geise, X. Luo, H. Hou, F. Zhang, Y. Feng, M. Hickner, B. E. Logan, “Patterned ion exchange membranes for improved power production in microbial reverse-electrodialysis cells”, J Power Sources, 2014 (271), 437-443
[8] L. Ren, Y. Ahn, H. Hou, F. Zhang, and B. Logan, “Electrochemical study of multi-electrode microbial fuel cells under fed-batch and continuous flow conditions”, J Power Sources, 2014 (257), 454-460
[9] H. Hou, X. Chen, A. W. Thomas, C. Catania, N. D. Kirchhofer, L. E. Garner, A. Han, and G. C. Bazan, “Conjugated Oligoelectrolytes Increase Power Generation in E. coli Microbial Fuel Cells”, Adv. Mater., 2013(25), 1593-1597
[10] Han, H. Hou, L. Li, H. Kim and P. de Figueiredo, “Microfabricated Devices in Microbial Bioenergy Sciences”, Trends Biotechnol., 2013(4), 225-232
[11] H. Hou, L. Li, C. U. Ceylan, P. de Figueiredo, and A. Han, “A Microfluidic Microbial Fuel Cell Array that Supports Long-Term Multiplexed Analysis of Electricigens”, Lab Chip, 2012 (12), 4151-4159
[12] H. Hou, L. Li, Y. Cho, P. de Figueiredo and A. Han, “Microfabricated Microbial Fuel Cell Arrays Reveal Electrochemically Active Microbes”, PLoS ONE, 2009(8), pp.e6570.
[13] H. Hou, L. Li, P. de Figueiredo, and A. Han, “Air-Cathode Microbial Fuel Cell Array: A Device for Identifying and Characterizing Electrochemically Active Microbes,” Biosens. Bioelectron., 2011(5), 2680-2684.
[14] H. Hou, W. Kim, M. A. Grunlan and A. Han, “A Thermoresponsive Hydrogel Poly(N-isopropylacrylamide) Micropatterning Method using Microfluidic Techniques”, J. Micromech. Microeng. , 2009(19), pp.127001.
[15] H. Hou, Y. Hou, M. A. Grunlan, D. J. Munoz-Pinto, M. S. Hahn and A. Han, “Micropatterning of Poly(N-isopropylacrylamide) PNIPAAm Hydrogels: Effects on Thermosensitivity and Cell Release Behavior”, Sens. Mater., 2010(22), pp.109-120.
[16] Y. Hou, A. R. Matthews, A. M. Smitherman, A. S. Bulick, M. S. Hahn, H. Hou, A. Han and M. A. Grunlan, “Thermoresponsive Nanocomposite Hydrogels with Cell-Releasing Behavior”, Biomaterials, 2008(29), 3175-3184.
[17] H. Hou, J. Bai, G. Yang, “Research on Image Processing of Two-Dimensional Plan of the Hemispheric Panoramic Imaging System”, Acta Photonica Sinica (Chinese), 2006(11), 1686-1688.
[18] H. Hou, J. Bai, G. Yang, “Research on Image Processing of the Three-dimensional Image of Panoramic Lens”, Optical Instruments (Chinese), 2005(6), 43-47.
Conference proceedings (Peer reviewed)
[19] H. Hou, L. Li, P. de Figueiredo, and A. Han, “A Microfluidic Microbial Fuel Cell Array for Multiplexed Long-Term Parallel Analysis of Microbial Activities”, The 15th International Conference on Miniaturized Systems for Chemistry and Life Sciences (μTAS 2011), Seattle, WA, 2011, pp. 1424-1426.
[20] H. Hou, C. Ceylan, L. Li, P, de Figueiredo and A. Han, “ A Microfluidic Microbial Fuel Cell Array for Electrochemically-active Microbe Screening and Analysis”, The 14th μTAS 2010, Groningen, The Netherlands, 2010, pp. 677-679.
[21] H. Hou, L. Li, Y. Cho, P, de Figueiredo and A. Han, “A Microfabricated Microbial Fuel Cell Array for High Throughput Screening (HTS) of Electricity Generating Microbes from Environment”, The 23rd IEEE International Conference on Micro Electro mechanical Systems, Hong Kong, China, 2010, pp. 1191-1194.
Book Chapter
[22] H. Hou, Lei Li, Y. Cho, P. de Figueiredo, A. Han, Chapter: Microfabricated Microbial Fuel Cell Arrays, in book “Recent Advances in Microbiology”, 2011, pp. 1-12
Conference & symposium presentations
[23] G. C. Bazan, L. Garner, A. Thomas, H. Hou, Jenny Du, N. Kirchhoffer, J. Sumner, D. Lovely and Bruce Logan,” Conjugated oligoelectrolytes for bioelectronic applications”, NA-ISMET, 2014, pp. 9
[24] C. Erbay, X. Pu, W. Choi, M. Choi, H. Hou, P. de Figueiredo, C. Yu, and A. Han,” Effect of physical and geometrical properties of carbon nanotube anodes on microbial fuel cells”, NA-ISMET, 2014, pp. 19
[25] C. Catania, H. Yan, X. Chen, H. Hou, B. Logan, G. Bazan,” Enhancement of microbial fuel cell performance with membrane intercalating conjugated oligoelectrolytes (COEs)”, NA-ISMET, 2014, pp. 26
[26] H. Hou, X. Chen, A. Han, and G. Bazan, “Oligoelectrolytes Facilitate Electron Transfer in Microbial Fuel Cells”, The 2012 NA-ISMET meeting, Cornell University, Ithaca, NY, 2012
[27] H. Hou, L. Li, P. de Figueiredo, and A. Han, “A Microfluidic Microbial Fuel Cell Array for Multiplexed Long-Term Parallel Analysis of Microbial Activities”, The 15th μTAS 2011, Seattle, WA, 2011.
[28] H. Hou, C. U. Ceylan, L. Li, P. de Figueiredo, and A. Han, “A microbial fuel cell array with microfluidic cathodes for the parallel analysis of electricigens”, The 1st North American Bioelectric Systems Meeting, Amherst, MA, 2010.
[29] H. Hou, L. Li, P. de Figueiredo, and A. Han, “Air-cathode microbial fuel cell array for electrochemically active microbe screening,” 239th ACS National Meeting, CA, 2010.
[30] H. Hou, L. Li, Y. Cho, P. de Figueiredo, and A. Han, “Microfabricated Microbial Fuel Cell Array for Screening of Electrochemically Active Microbes,” 239th ACS National Meeting, San Francisco, CA, 2010.
[31] H. Hou, W. Kim, and A. Han, “A Method for Poly(N-isopropylacrylamide) Micropatterning Controlled by Microfluidics,” The 26th Annual Houston Conference on Biomedical Engineering Research, TX, 2009.
[32] H. Hou, Y. Hou, M. A. Grunlan, D. J. Munoz-Pinto, M. S. Hahn, and A. Han, “Thermosensitivity and Surface Properties of Microstructured Poly(N-isopropylacrylamide) for Regulated Cell Release,” The 26th Annual Houston Conference on Biomedical Engineering Research (HSEMB), Houston, TX, 2009.
[33] H. Hou, Y. Hou, M. A. Grunlan, D. J. Munoz-Pinto, M. S. Hahn, and A. Han, “Regulating Thermosensitivity and Surface Properties of Poly(N-isopropylacrylamide) through Micropatterning”, The 2008 MRS Fall Meeting, Boston, MA, 2008.
[34] H. Hou, W. Kim and A. Han, “Micropatterning of a Photocurable Hydrogel in a Microfluidic System”, The 2008 MRS Fall Meeting, Boston, MA, 2008.
[35] M. A. Grunlan, Y. Hou, H. Hou, A. Han, “Thermoresponsive Composite Hydrogels: Micropatterning and Self-Cleaning Behavior,” MRS Spring Meeting 2008, San Francisco, CA, 2008.

1.个人简介

侯慧杰,华中科技大学副教授,硕士生导师。 2011年于美国德州农工大学获得博士学位,2011年至2012年在美国加州大学圣巴巴拉分校从事博士后研究,2012年至2014年在美国宾州州立大学从事博士后研究。2015年加入华中科技大学环境科学与工程学院环境工程系,任副教授。

2. 研究方向

(1)微生物电化学技术在污水处理以及绿色能源领域的应用

(2)生物微机电系统在环境微生物探测以及环境传感器方向的应用

(3) Lab on a chip

Last Update on 9 May 2016