Amer Alizadeh

 

Ph.D

Department of Engineering Mechanics, School of Aerospace, Tsinghua University

Email: amer.alizadeh/at/yahoo.com

 

20150821_122140

 

Education:

¨    Phd  (2014-2019)

ü Affiliation: Department of Engineering Mechanics, School of Aerospace, Tsinghua University.

ü Supervisor: Prof. Moran Wang.

 

¨    M.Sc  (2009-2012)

Ø Affiliation: Department of Mechanical Engineering, Faculty of Engineering, Birjand University.

Ø Supervisor: Prof. S. Ali Mirbozorgi

Ø Thesis: Numerical study of Electro-Osmotic flows (EOF) with non-zero temperature gradient.

 

¨    B.Sc  (2003-2007)

v Affiliation: Department of Rolling Stock Engineering, School of Railway Engineering, Iran University of Science and Technology (IUST).

v Supervisor: Prof. Parisa Hosseini Tehrani

v Thesis: Numerical study of optimal design of the nose of high speed train for the head to head crash.

 

 

Research Interests:

·       Electrokinetic and colloid transport phenomena in micro/nano channels

·       Nonlinear electrokinetics in energy and environmental science

·       Multiphysicochemical transports in porous media

·       Lattice Boltzmann methods

 

Honors & Awards:

ü 2018                            Tsinghua University Scholarship (1st class)

ü 2017                            Iranian Embassy Prize to top 3 Iranian Students in China

ü 2014 to 2019                China Government Scholarship (CSC)

ü 2009 to 2012                Iran ministry of Science, Research and Technology scholarship

ü 2003 to 2007                Iran ministry of Science, Research and Technology scholarship

 

Publications

¨    In journals

12. A. Alizadeh#, Y.F. Huang#, F.L. Liu, H. Daiguji and M. Wang*. A streaming-potential-based microfluidic measurement of surface charge at immiscible liquid-liquid interface. IJMS

11. A. Alizadeh, W. Hsu, M. Wang and H. Daiguji*. Electroosmotic flow: From microfluidics to nanofluidics. Electrophoresis 42: 834-868, 2021

10. A. Alizadeh, W. Hsu, H. Daiguji* and M. Wang*. Temperature-regulated Surface Charge Manipulates Ionic Current Rectification in Tapered Nanofluidic Channel. International Journal of Mechanical Sciences 210: 106754, 2021

9. A. Alizadeh and M. Wang*. Temperature effects on electrical double layer at solid-aqueous solution interface Electrophoresis 41, 1067-1072, 2020 (Cover page)

8. A. Alizadeh, X. Jin and M. Wang*. Pore-scale Study of Ion Transport Mechanisms through Inhomogeneously Charged Nanoporous Rocks. Journal of Geophysical Research-Solid Earth 124: 017200, 2019

7. A. Alizadeh and M. Wang*. Flexibility of inactive electrokinetic layer at charged solid-liquid interface in response to bulk ion concentration Journal of Colloid and Interface Science 534: 195-204, 2019

6. A. Alizadeh and M. Wang*. A generalized local grid refinement approach for modeling of multi-physicochemical transports by lattice Boltzmann method. Advances in Applied Mathematics and Mechanics 11: 1-26, 2019

5. A. Alizadeh and M. Wang*. Reverse Electrodialysis through Nanochannels with Inhomogeneously Charged Surfaces and Overlapped Electric Double Layers. Journal of Colloid and Interface Science 529: 214-223, 2018

4. A. Alizadeh, M. Wang*. Direct simulation of electroosmosis around a spherical particle with inhomogeneously acquired surface charge. Electrophoresis 38: 580-595, 2017 (cover page)

3. A. Alizadeh, M. E. Warkiani, M. Wang*, Manipulating electrokinetic conductance of nanofluidic channel by varying inlet pH of solution. Microfluidics and Nanofluidics. 21: 52, 2017

2. A. Alizadeh, L. Zhang, and M. Wang*. Mixing enhancement of low Reynolds electro-osmotic flows in microchannels with temperature-patterned walls. Journal of Colloid and Interface Science, 431: 50-63, 2014.

 

GRAPHICAL ABSTRACT.png

Thermoelectrochemical migration phenomenon and its effects on the vortices scale in an electro-osmotic flow

 

1. A. Alizadeh, J. Wang, S. Pooyan, S. A.  Mirbozorgi, M. Wang*. Numerical Study of Active Control of Mixing in Electro-Osmotic Flows by Temperature Difference using Lattice Boltzmann MethodsJournal of Colloid and Interface Science, 407: 546-555, 2013.

 

 

¨    In Conferences

1.      A. Alizadeh, M. Wang*. Modeling electrokinetic conductance of nanochannel by developing an electrical triple layer model. Optofuidics, 2016, Beijing, China (Poster).

2.      A. Alizadeh, M. Wang*. Predictions of electrokinetic conductance of nanochannel by modified electrical triple layer model. International Conference of Microfluidics and Lab-On-a-Chip, 2016, Dalian, China (Presentation).

3.      A. Alizadeh, M. Wang*. Temperature gradient and mixing enhancement of low-Reynolds electroosmotic flows. Advances in microfluidics & Nanofluidic, 2015, Beijing, China (Presentation).

4.      A. Alizadeh, S. A. Mirbozorgi. Numerical investigation of thermal effects on the electro-osmotic flows in a flat microchannel using lattice Boltzmann method. 14 th conference of fluid dynamics, 2012, Birjand, Iran (In Persian-Presentation).

5.      A. Alizadeh, P. H. Tehrani. Optimized nose design of high speed trains in order to increase the crashworthiness for frontal crash. 2nd international conference on recent advances in railway engineering, 2009, Tehran, Iran (In Persian-Presentation).