Work Address
Institute of Industrial Science, the University of Tokyo (IIS)
Dw-205,
Shikazono Lab,
4-6-1 Komaba, Meguro-ku,
Tokyo 153-8505, Japan
Tel : 081-08037-149136
e-mail : zhenjun@iis.u-tokyo.ac.jp
Zhenjun Jiao
Citizenship : Chinese
▪ Date of birth : 04
Nov 1982
Education
2005 to 2008 Ph.D. of Mechanical and
Aerospace Engineering
Supervisors:
Prof. Xiaoyang Huang & Prof. Nguyen Namtrung
Thesis:
Thermocapillary Actuation and Droplet Manipulation in
Microfluidics
Division
of Thermal and Fluid Engineering,
School
of Mechanical and Aerospace Engineering,
Nanyang Technological University,
Singapore.
2002 to 2005 Bachelor of Mechanical and
Aerospace Engineering
(Acceleration program: 3 years + 6
months industrial attachment)
Supervisor:
Prof. Nguyen Namtrung
Thesis:
Thermocapillary Actuation of Microfluidic Droplet in Microchannel
School
of Mechanical and Aerospace Engineering,
Nanyang Technological University,
Singapore.
2002
English Courses
Singapore National Scholarship
National Institute of
Education, Singapore.
Work Experience
2012 to now Assistant Professor in
Solid Oxide Fuel Cell under CREST
(Core Research for Evolution Science and Technology).
Institute of Industrial Science (Shikazono Lab),
The University of
Tokyo.
2008 to 2011 Post-doctoral Researcher
in Solid Oxide Fuel Cell under NEDO
(New Energy and Industrial Technology Development Organization).
Division of Turbulence and Heat Transfer (Nobuhide
Kasagi Lab),
Department of Mechanical Engineering, The
University of Tokyo.
2005 to 2008 Teaching Assistance of Tutorials (Subjects: Mathematics
and Thermodynamics) &
Experiments
Classes
Division
of Thermal and Fluid Engineering, School of Mechanical and Aerospace Engineering, Nanyang Technological
University, Singapore.
2005 to 2005 Industrial
internship
Division of Research and Development, BD
Medical Technology Company Singapore.
Academic
Awards and Honors
2013
Co-organizer
of the Solid State Electrochemistry workshop 2013 in Heidelberg University.
2008
Post-doctoral fellowship of Japan New Energy and Industrial Technology
Development
Organization, leader of the research group in the University of
Tokyo.
2007
Candidate of top-five presentation in
ASME Micro/Nano-scale Heat Transfer International
Conference, Tainan, Taiwan.
2005 Singapore government
scholarship (SM3).
Membership
of Academia
2009
to now
Member of Solid Oxide Fuel Cell Research Society of Japan
Research
Funding Obtained
2008
to 2011 New Energy and Industrial Technology
Development Organization (NEDO) funding under
the Development of System and Elemental
Technology on Solid Oxide Fuel Cell (SOFC)
Project.
2012
to now Core Research for Evolution Science and
Technology (CREST) under the Development of
Technology
on Solid Oxide Fuel Cell (SOFC) Project
Current
Research Topic
Quantitative
Modeling of Nickel Coarsening Against Time in High Temperature Operation for
Composite SOFC Cermet Anodes (Ni/YSZ) by Using Phase Field Method.
Key Skills
Hardware Skills
Prototyping of polymeric devices for microfluidics,
FIB-SEM station (Carl Zeiss,
NVision40), XRD, EDX, RAMAN, TEM
SOFC fabrication and measurement devices.
Software Skills Microsoft
office, Adobe Illustrator, Latex, Matlab, Comsol, Avizo and so on.
Languages Chinese (native), English (fluent),
Japanese (JLPT level II),
French (beginner)
Activities and Interests
Hobbies Swimming,
basketball and traveling
Publications List
Journal Papers
❖ Z. Jiao and N. Shikazono, Simulation of Solid Oxide
Fuel Cell Anode Microstructure Evolution Using Phase Field Method, Journal of the Electrochemical Society, 160 (6), pp.
F1-F7, 2013.
❖ Z. Jiao, N. Shikazono and N. Kasagi, Quantitative Study on the Correlation Between Solid
Oxide Fuel Cell Ni-YSZ Composite Anode Performance and Sintering Temperature
Based on Three- dimensional Reconstruction, Journal of the Electrochemical
Society, 159 (7), pp. F278-F286, 2012.
❖ Z. Jiao, N. Shikazono and N. Kasagi, Quantitative Characterization of SOFC Nickel-YSZ
Anode Microstructure Degradation Based on Focused-Ion-Beam 3D-Reconstruction
Technique, Journal of the Electrochemical Society, 159 (3), pp. B1-B7, 2012.
❖ Z. Jiao, N. Shikazono and N. Kasagi, Study on Degradation of solid oxide fuel cell anode
by using pure Ni electrode, Journal of Power Sources, 196, pp. 8366–8376, 2011.
❖ Z. Jiao, N. Shikazono and N. Kasagi, An Ultra-fast fabrication technique for anode
support solid oxide fuel cells by microwave, Journal of Power Sources, 196
(13), pp. 5490-5493, 2011.
❖ Z. Jiao, Takagi, N. Shikazono
and N. Kasagi, Study on local morphological changes
of nickel in Solid Oxide Fuel Cell anode using porous Ni pellet electrode,
Journal of Power Sources, 2010, 196 (3), pp. 1019-1029, 2011.
❖ Z. Jiao, N. Shikazono and N. Kasagi, Comparison of ultra-fast microwave sintering and
conventional thermal sintering in manufacturing of anode support Solid Oxide
Fuel Cell, Journal of Power Sources, 195 (24), pp. 8019-8027, 2010.
❖ Z. Jiao, N. Shikazono and N. Kasagi, Performance of an anode support solid oxide fuel
cell manufactured by microwave sintering, J. Power Sources, 195 (1), pp.
151-154, 2010.
❖ X. Huang, C. Y. Wen and Z. Jiao, A standing wave model
for acoustic pumping effect in microchannels, APPLIED
ACOUSTICS 71 (2), pp. 164-168, 2010.
❖ Z. Jiao, X. Huang, N. T. Nguyen, Scattering and attenuation of surface
acoustic waves in droplet actuation, Journal of Physics A: Mathematical and
Theoretical, Vol. 41, pp. 355502, 2008.
❖ S.S.Wang, Z. Jiao,
X. Huang, N. T. Nguyen, Acoustically induced bubbles in a microfluidic channel
for mixing enhancement, Microfluidics and Nanofluidics,
under review, 2008.
❖ Z. Jiao, X. Huang, N. T. Nguyen, Manipulation of droplet in a planar
channel by periodic thermocapillary actuation,
Journal of Micromechanics and Microengineering, vol.
18, No. 4, pp. 045027, 2008.
❖ Z. Jiao, X. Huang, N. T. Nguyen, P. Abgrall, Thermocapillary actuation of droplet in a planar microchannel, Microfuidics and Nanofuidics, Vo. 5, No. 2, pp. 205-214, 2007.
❖ Z. Jiao, N. T. Nguyen, X. Huang, Thermocapillary
actuation of a water droplet encapsulated in an oil plug, Journal of
Micromechanics and Microengineering, Vol. 17, No. 9,
pp. 1843-1852, 2007.
❖ Z. Jiao, N. T. Nguyen, X. Huang, Thermocapillary
actuation of liquid plugs using a heater array, Sensors and Actuators A , Vol.
140, No. 2, pp. 145-155, 2007.
❖ X. Huang, N. T. Nguyen, Z. Jiao, Nonlinear standing waves in a resonator
with feedback control, The Journal of the Acoustical Society of America, Vol.
122, No. 1, pp. 38-41,2007.
❖ Z. Jiao, N. T. Nguyen, X. Huang, Chaotic motion of micro plugs under
high-frequency thermocapillary actuation, Journal of
Micromechanics and Microengineering, Vol. 17, pp.
180-185, 2007.
❖ Z. Jiao, N. T. Nguyen, X. Huang, Y. Z. Ang ,
Reciprocating thermocapillary plug motion in an
externally heated capillary, Microfluidics and Nanofluidics,
Vol 3, No.1, pp. 39-46, 2006.
Conference Papers
❖ Z. Jiao, N. Shikazono and N. Kasagi, Simulation of Solid Oxide Fuel Cell Anode
Microstructure Evolution by Using the Phase Field Method, the 21th Symposium on
Solid Oxide Fuel Cells in Japan, Tokyo, 21-151, 2012.
❖ Z. Jiao, N. Shikazono and N. Kasagi, 3D Quantitative Characterization of Nickel-Yttria- stabilized Zirconia Solid Oxide Fuel Cell Anode
Microstructure in Operation, 10th European Solid Oxide Fuel Cell Forum,
Lucerne, Switzerland, June 26-June 29, 5-211, 2012.
❖ Z. Jiao, N. Shikazono and N. Kasagi, 3D Quantitative Characterization of Nickel-Yttria-stabilized zirconia Solid Oxide Fuel Cell anode
Microstructure in Discharge, the 20th Symposium on Solid Oxide Fuel Cells in Japan,
Tokyo, 20-153, 2011.
❖ Z. Jiao, N. Shikazono and N. Kasagi, Study on
degradation of Solid Oxide Fuel Cell with pure Ni anode, ECS Trans., Montreal,
Canada, 35 (1), pp.1735-1742, 2011.
❖ Z. Jiao, N. Shikazono and N. Kasagi, Study on
degradation of Solid Oxide Fuel Cell with pure Ni anode, the 19th Symposium on
Solid Oxide Fuel Cells in Japan, Tokyo, pp.60-63, 2010.
❖ Z. Jiao, N. Shikazono and N. Kasagi,
Comparison of ultra-fast microwave sintering and conventional thermal sintering
in manufacturing of anode Support Solid Oxide Fuel Cell, Proc. JSME Thermal
Eng. Conf. 2010,pp. 291-292, 2010.
❖ Z. Jiao, N. Shikazono and N. Kasagi,
Advantages of microwave sintering in manufacturing of anode Support Solid Oxide
Fuel Cell, 9th European Solid Oxide Fuel Cell Forum, Lucerne, Switzerland, June
29-July 2 2010, 5-211, 2010.
❖ Z. Jiao, N. T. Nguyen,
X. Huang, Y. Z. Ang , Thermocapillary
actuation and cycling of liquid plugs, The first ASME Micro/Nanoscale
Heat Transfer International Conference (MNHT2008-52145), Tainan, Taiwan, 2008.
[Top five article]
❖ Z. Jiao, N. T. Nguyen,
X. Huang, Programmable manipulation of a droplet in a plannar
microchannel, The Sixth International Conference on Nanochannels, Microchannels, and Minichannels June 23-25, 2008, Darmstadt, Germany, 2008.
❖ Nguyen, N. T., Jiao,
Z.J, Huang, X.Y., Thermocapillary
effect of a water/oil system, ASME Micro/ Nanoscale
Heat Transfer International Conference, Tainan, Taiwan, MNHT2008-52061, 2008.
❖ Nguyen N.T., Jiao Z,
Huang X, 2006, Thermocapillary actuation of microplugs, International Conference on Bio-Nanotechnology
ICBN, Al AIn, UAE, pp
205-209, 2006.
Book
Chapter Contribution
❖ Nguyen N. T., 2008, Micromixers: Fundamentals, Design and Fabrication, William
Andrew Micro & Nano Technologies Series, ISBN 081551543X, 9780815515432.
❖ Dongqing Li, 2008, Encyclopedia of Microfluidics and Nanofluidics, Springer Reference, ISBN0387324682,
9780387324685.