[1] M. AP. Electroosmotic phenomena in porous media. J Colloid Interface Sci 1996;181:169.
[2] Ren L, Li D. Electroosmotic Flow in Heterogeneous Microchannels. J Colloid Interface Sci 2001;243:255–61.
[3] Tang GH, Li Z, Wang JK, He YL, Tao WQ. Electroosmotic flow and mixing in microchannels with the lattice Boltzmann method. J Appl Phys 2006;100:94908.
[4] Wang M, Wang J, Chen S, Pan N. Electrokinetic pumping effects of charged porous media in microchannels using the lattice Poisson–Boltzmann method. J Colloid Interface Sci 2006;304:246–53.
[5] Fu L-MM, Lin J-YY, Yang R-JJ. Analysis of electroosmotic flow with step change in zeta potential. J Colloid Interface Sci 2003;258:266–75.
[6] Basati Y, Mohammadipour OR, Niazmand H. Numerical investigation and simultaneous optimization of geometry and zeta-potential in electroosmotic mixing flows. Int J Heat Mass Transf 2019;133:786–99.
[7] Mirbozorgi SA, Niazmand H, Renksizbulut M. Electro-Osmotic Flow in Reservoir-Connected Flat Microchannels With Non-Uniform Zeta Potential. J Fluids Eng 2006;128:1133–43. https://doi.org/10.1115/1.2353261.
[8] Basati Y, Mohammadipour OR, Niazmand H. Numerical and analytical analysis of a robust flow regulator in electroosmotic microfluidic networks. Chem Eng Sci 2019;210:115232.
[9] Wang C, Song Y, Pan X, Li D. A novel microfluidic valve controlledby induced charge electro-osmotic flow. J Micromechanics Microengineering 2016;26:75002.
[10] Bayareh M, Ashani MN, Usefian A. Active and passive micromixers: A comprehensive review. Chem Eng Process - Process Intensif 2020;147:107771.
[11] Levitan JA, Devasenathipathy S, Studer V, Ben Y, Thorsen T, Squires TM, et al. Experimental observation of induced-charge electro-osmosis around a metal wire in a microchannel. Colloids Surfaces A Physicochem Eng Asp 2005;267:122–32.
[12] Yoshida K, Sato T, Eom SI, Kim J wan, Yokota S. A study on an AC electroosmotic micropump using a square pole – Slit electrode array. Sensors Actuators, A Phys 2017;265:152–60.
[13] Squires TM, Bazant MZ. Induced-charge electro-osmosis. J Fluid Mech 2004;509:217–52. https://doi.org/10.1017/S0022112004009309.
[14] Wu Z, Li D. Mixing and flow regulating by induced-charge electrokinetic flow in a microchannel with a pair of conducting triangle hurdles. Microfluid Nanofluidics 2008;5:65–76.
[15] Wu Z, Li D. Micromixing using induced-charge electrokinetic flow. Electrochim Acta 2008;53:5827–35.
[16] Wu Z, Li D. Induced-charge electrophoretic motion of ideally polarizable particles. Electrochim Acta 2009;54:3960–7.
[17] Kang Y, Li D. Electrokinetic motion of particles and cells in microchannels. Microfluid Nanofluidics 2009;6:431–60.
[18] Manshadi MKD, Mohammadi M, Zarei M, Saadat M, Sanati-Nezhad A. Induced-charge electrokinetics in microfluidics: A review on recent advancements. J Micromechanics Microengineering 2020;30.
[19] Feng H, Chang H, Zhong X, Wong TN. Recent advancement in induced-charge electrokinetic phenomena and their micro- and nano-fluidic applications. Adv Colloid Interface Sci 2020;280:102159..
[20] سلیمیان ریزی ف, طالبی ش, محمدی م. جداسازی میکرو و نانو ذرات با استفاده از روش القای بار الکتروسینتیک در یک کانال مستطیلی. مهندسی مکانیک دانشگاه تبریز 2022;52:309–17. h
[21] Azimi S, Nazari M, Daghighi Y. Fluid physics around conductive deformable flaps within an induced-charge electrokinetically driven microsystem. Microfluid Nanofluidics 2016;20:124.
[22] Azimi S, Nazari M, Daghighi Y. Developing a fast and tunable micro-mixer using induced vortices around a conductive flexible link. Phys Fluids 2017;29.
[23] مصطفوی م, نظری م. بررسی اختلاط ناشی از جریان الکتروکینتیک القایی غیرخطی در یک میکروکانال. مهندسی مکانیک دانشگاه تبریز 2018;48:323–30.
[24] Nazari M, Rashidi S, Esfahani JA. Effects of flexibility of conductive plate on efficiency of an induced-charge electrokinetic micro-mixer under constant and time-varying electric fields-A comprehensive parametric study. Chem Eng Sci 2020;212:115335.
[25] Nazari M, Chuang P-YYA, Abolfazli Esfahani J, Rashidi S. A comprehensive geometrical study on an induced-charge electrokinetic micromixer equipped with electrically conductive plates. Int J Heat Mass Transf 2020;146:118892.
[26] Nazari M, Rashidi S, Esfahani JA. Mixing process and mass transfer in a novel design of induced-charge electrokinetic micromixer with a conductive mixing-chamber. Int Commun Heat Mass Transf 2019;108:104293.
[27] Zhao L, Lai T, Gao Y, Yan S, Liu M, Hou Y. Experimental investigation of inflow-outflow asymmetry in induced-charge electro-osmosis. Energy Storage Sav 2024;3:16–22.
[28] Wei Y, Xu J, Li J, Yu W, Li C. Effect of elasticity on the induced charge electro-osmotic mixing of viscoelastic fluids in a micromixer with a conductive cylinder. Phys Fluids 2024;36.
[29] صالح آبادی ح, نظری م, کیهانی مح. مدلسازی دوفازی نفوذ و پیمایش سیال در مسیرهای مشخص داخل محیط متخلخل لایهای به کمک روش شبکه بولتزمن. مهندسی مکانیک دانشگاه تبریز 2017;47:129–38.
[30] جلالی ع, امیری دلوئی ا, گل محمدی ام, خوراشادیزاده م. شبیهسازی جریان سیال کاریو-یاسودا با لزجت تابع دما:
روش شبکه بولتزمن غیرنیوتنی. مهندسی مکانیک دانشگاه تبریز 2018;48:105–13.
[31] Mohammadipour OR, Succi S, Niazmand H. General curved boundary treatment for two- and three-dimensional stationary and moving walls in flow and nonflow lattice Boltzmann simulations. Phys Rev E 2018;98:23304.
[32] Pascall AJ, Squires TM. Induced Charge Electro-osmosis over Controllably Contaminated Electrodes. Phys Rev Lett 2010;104:88301.
)