[1]N Wang, H Xu, T Wang, Z Che*. [2024] Wall confinement effects on the dynamics of cavitation bubbles in thin tubes. Physics of Fluids. Accepted.

[2]W Gao, Q Li, K Sun, R Chen, Z Che*, T Wang*. [2024] Effects of gas diffusion layer thickness on PEM fuel cells with composite foam-rib flow fields. International Communications in Heat and Mass Transfer. Accepted.

[3]C Yin, T Wang, Z Che, J Wang, K Sun*. [2024] Enhanced coalescence-induced droplet-jumping on superhydrophobic surfaces with stepped structures. Physics of Fluids. 36, 033324. (Editor's Pick)

[4]W Zhang, X Tao, Q Li, K Sun, R Chen, Z Che*, T Wang*. [2024] Effect of startup modes on cold start performance of PEM fuel cells with different cathode flow fields. International Journal of Heat and Mass Transfer. 225, 125418.

[5]M Suo, K Sun*, Z Zeng, Q Li, Z Che, R Chen, T Wang*. [2024] Pore-scale numerical investigation of water transport in metal foam flow fields of proton exchange membrane fuel cells: Effect of structural parameters and wettability. International Journal of Hydrogen Energy. 61, 395-406.

[6]L Carnevale, P Deuar, Z Che, P Theodorakis*. [2024] Surfactant-laden liquid thread breakup driven by thermal fluctuations. Physics of Fluids. 36, 033301. (Editor's Pick)

[7]S Arbabi, P Deuar, R Bennacer, Z Che, P Theodorakis*. [2024] Coalescence of sessile aqueous droplets laden with surfactant. Physics of Fluids. 36, 023340. (Featured article)

[8]Y Huang, P Theodorakis, Z Zeng, T Wang, Z Che*. [2024] Ionomer structure and component transport in the cathode catalyst layer of PEM fuel cells: A molecular dynamics study. The Journal of Chemical Physics. 160, 044910.

[9]H Xu, T Wang, Z Che*. [2023] Coalescence of immiscible droplets in liquid environments. Journal of Colloid and Interface Science. 659, 60-70.

[10]H Zhang, Z Lu, T Wang, Z Che*. [2023] Micro-explosion of emulsion droplets with nanoparticles at high temperature. International Journal of Heat and Mass Transfer. 219, 124851.

[11]Z Xu, T Wang, Z Che*. [2023] Breakup of particle-laden droplets in airflow. Journal of Fluid Mechanics. 974, A42.

[12]S Arbabi, P Deuar, M Denys, R Bennacer, Z Che, P Theodorakis*. [2023] Molecular dynamics simulation of the coalescence of surfactant-laden droplets. Soft Matter. 19, 8070-8080 (Inside cover).

[13]J Cui, T Wang, Z Che*. [2023] Melting process of frozen sessile droplets on superhydrophobic surfaces. Langmuir. 39, 14800–14810.

[14]X Tao, K Sun, R Chen, M Suo, H Liu, Z Che*, T Wang*. [2023] Two-phase flow in porous metal foam flow fields of PEM fuel cells. Chemical Engineering Science. 282, 119270.

[15]Z Xu, Y Zhang, T Wang, Z Che*. [2023] Deformation and breakup of compound droplets in airflow. Journal of Colloid and Interface Science. 653, 517-527.

[16]L-S Pan, F Y Leong, E Klaseboer, C-W Kang, Y C Wang, K H Lim, G Xu, C Zhao, Z Che, C Ooi, Z Ge, Y F Yap, H Li. [2023] Investigating airborne transmission risks: A mathematical model of evaporating droplets with solid residue. Physics of Fluids. 35, 097129.

[17]H Xu, X Ge, T Wang, Z Che*. [2023] Coalescence of immiscible sessile droplets on a partial wetting surface. Journal of Fluid Mechanics. 971, A34.

[18]W Gao, Q Li, K Sun, R Chen, Z Che*, T Wang*. [2023] Mass transfer and water management in proton exchange membrane fuel cells with a composite foam-rib flow field. International Journal of Heat and Mass Transfer. 216, 124595.

[19]X Peng, T Wang, F Jia, K Sun, Z Li, Z Che*. [2023] Singular jets during droplet impact on superhydrophobic surfaces. Journal of Colloid and Interface Science. 651, 870-882.

[20]Z Zeng, K Sun, R Chen, M Suo, Z Che*, T Wang*. [2023] Variation of critical crystallization pressure for the formation of square ice in graphene nanocapillaries. The Journal of Physical Chemistry C. 127 (30) 14874-14882. (Supplementary cover).

[21]L Carnevale, P Deuar, Z Che, P Theodorakis*. [2023] Liquid thread breakup and the formation of satellite droplets, Physics of Fluids. 35, 074108. (Featured article).

[22]S Arbabi, P Deuar, M Denys, R Bennacer, Z Che, P Theodorakis*. [2023] Coalescence of surfactant-laden droplets. Physics of Fluids. 35, 063329.

[23]F Tian, L Shi, Z Che, Z Lu, K Sun, T Wang*. [2023] Experimental investigation of cyclic variation of the in-cylinder flow in a spark-ignition engine with a charge motion control valve. Flow, Turbulence and Combustion. 111, 743-766.

[24]Z Xu, H Qi, T Wang, Z Che*. [2023] Coalescence delay mediated by the gas layer during the impact of hot droplets. International Journal of Heat and Mass Transfer, 204, 123864.

[25]OA Odumosu, H Xu, T Wang, Z Che*. [2023] Growth of elongated vapor bubbles during flow boiling heat transfer in wavy microchannels. Applied Thermal Engineering, 223, 119987.

[26]H Zhang, Z Lu, T Wang, Z Che*. [2023] Mist formation during micro-explosion of emulsion droplets. Fuel, 339, 127350.

[27]Z Xu, T Wang, Z Che*. [2023] Transitions of breakup regimes for viscous droplets in airflow. Fuel, 339, 127355.

[28]Y Li, Z Xu, X Peng, T Wang, Z Che*. [2023] Numerical simulation of secondary breakup of shear-thinning droplets. Physics of Fluids, 35, 012103 (Featured article).

[29]F Tian, T Wang, Z Che, K Sun, Z Lu, D Liu, L Shi*. [2022] Experimental investigation of boundary layer flow near the cylinder wall in a direct-injection spark-ignition engine using particle image velocimetry. International Journal of Engine Research, 24, 2660-2676.

[30]Z Xu, T Wang, Z Che*. [2022] Cavity deformation and bubble entrapment during the impact of droplets on a liquid pool. Physical Review E, 106 (5), 055108.

[31]M Denys*, P Deuar, Z Che, P Theodorakis*. [2022] A Lagrangian particle-based numerical model for surfactant-laden droplets at macroscales. Physics of Fluids, 34 (9), 095126.

[32]H Xu, T Wang, Z Che*. [2022] Bridge evolution during the coalescence of immiscible liquid droplets. Journal of Colloid and Interface Science, 628, 869-877.

[33]H Xu, T Wang, Z Che*. [2022] Flow in fuel nozzles under cavitation and flash-boiling conditions. AIP Advances, 12, 055218.

[34]Y Zhai, H Li, Z Tao, X Cao, C Yang, Z Che, T Xu*. [2022] Design, fabrication and test of a bulk SiC MEMS accelerometer. Microelectronic Engineering, 260, 111793.

[35]J Cao, M Ye, H Li, T Wang, Z Che*. [2022] Heat transfer enhancement by mist/air two-phase flow in a high-temperature channel. International Journal of Heat and Mass Transfer, 193, 122966.

[36]Y Luo, Z Zheng, X Zheng, Y Li, Z Che, J Fang, L Xi, NT Nguyen, C Song*. [2022] Model-based feedback control for on-demand droplet dispensing system with precise real-time phase imaging. Sensors and Actuators B: Chemical, 365, 131936.

[37]Z Xu, T Wang, Z Che*. [2022] Droplet breakup in airflow with strong shear effect. Journal of Fluid Mechanics, 941, A54.

[38]Z Zeng, T Wang*, R Chen, M Suo, K Sun, P Theodorakis, Z Che*. [2022] Two-dimensional partitioned square ice confined in graphene/graphite nanocapillaries. The Journal of Chemical Physics, 156, 154510.

[39]M Li, E Zhang, M Zhang, Z Che, Y Qin*, T Zhang, X Han, Y Wang. [2022] Ex-situ experimental study on extraction of droplet dynamic parameters based on droplet shape in PEMFC. International Journal of Green Energy, doi: 10.1080/15435075.2021.2025064.

[40]M Li, Y Li, Y Qin*, Y Yin, J Zhang, Z Che*. [2022] Water droplet detachment characteristics on surfaces of gas diffusion layers in PEMFCs. International Journal of Hydrogen Energy, 47 (18), 10341-10351.

[41]M Suo, K Sun*, R Chen, Z Che, Z Zeng, Q Li, X Tao, T Wang*. [2021] Oxygen transport in proton exchange membrane fuel cells with metal foam flow fields. Journal of Power Sources, 521, 230937.

[42]Z Xu, L Wang, T Wang, Z Che*. [2021] Crown rupture during droplet impact on a dry smooth surface at increased pressure. Physics of Fluids, 33, 122105.

[43]X Peng, T Wang, K Sun, Z Che*. [2021] Droplet splashing during the impact on liquid pools of shear-thinning fluids with yield stress. Physics of Fluids, 33, 112106 (Editor’s Pick).

[44]PE Theodorakis*, A Amirfazli, B Hu, Z Che. [2021] Droplet control based on pinning and substrate wettability. Langmuir, 37, 4248-4255.

[45]FA Hammad, K Sun, Z Che*, J Jedelsky, T Wang*. [2021] Internal two-phase flow and spray characteristics of outside-in-liquid twin-fluid atomizers. Applied Thermal Engineering, 187, 116555.

[46]P Zhang, Z Xu, T Wang, Z Che*. [2021] A method to measure vapor concentration of droplet evaporation based on background oriented Schlieren. International Journal of Heat and Mass Transfer, 168, 120880.

[47]Y Luo, J Yang, X Zheng, J Wang, X Tu, Z Che, J Fang, L Xi, NT Nguyen, C Song*. [2020] Three-dimensional visualization and analysis of flowing droplets in microchannels using real-time quantitative phase microscopy. Lab on a Chip, 21, 75-82 (Back Cover Story).

[48]Z Xu, T Wang, Z Che*. [2020] Droplet deformation and breakup in shear flow of air. Physics of Fluids, 32, 052109 (Featured Article).

[49]Y Luo, J Yang, X Tu, T Huang, Z Che, C Song*. [2020] Optofluidic phase-shifting digital holographic microscopy for quantitative measurement of microfluidic diffusion dynamics. Journal of Applied Physics, 127, 134501.

[50]H Qi, T Wang, Z Che*. [2020] Air layer during the impact of droplets on heated substrates. Physical Review E, 101, 043114.

[51]Y Lu*, N M Kovalchuk, Z Che, M Simmons. [2020] Interfacial instabilities due to immiscible fluid displacement in circular and non-circular microchannels. Experimental Thermal and Fluid Science, 113, 110045.

[52]V Belus, J Rabault*, J Viquerat, Z Che, E Hachem, U Reglade. [2019] Exploiting locality and translational invariance to design effective deep reinforcement learning control of the 1-dimensional unstable falling liquid film. AIP Advances, 9, 125014.

[53]L Wang, S Rong, S Shen, T Wang, Z Che*. [2019] Interface oscillation of droplets upon impact on a heated surface in the Leidenfrost state. International Journal of Heat and Mass Transfer, 148, 119116.

[54]C Yin, T Wang, Z Che, M Jia, K Sun. [2019] Critical and optimal wall conditions for coalescence-induced droplet jumping on textured superhydrophobic surfaces. Langmuir, 35 (49), 16201-16209.

[55]S Shen, Z Che, T Wang*, Z Yue*, K Sun, S Som. [2019] A model for droplet heating and evaporation of water-in-oil emulsified fuel. Fuel, 266, 116710.

[56]Q Ding, T Wang, Z Che*. [2019]. Two jets during the impact of viscous droplets onto a less-viscous liquid pool. Physical Review E, 100, 053108.

[57]S Shen, K Sun, Z Che*, T Wang*, M Jia, J Cai. [2019] Mechanism of micro-explosion of water-in-oil emulsified fuel droplet and its effect on soot generation. Energy, 191, 116488.

[58]S Shen, K Sun, Z Che*, T Wang*, M Jia. [2019] Puffing and micro-explosion of heated droplets for homogeneous ethanol-propanol-hexadecane fuel and micro-emulsified ethanol-biodiesel-hexadecane fuel. Applied Thermal Engineering, 165, 114537.

[59]Y Sun, Z Che, K Sun, T Wang*, Y Li, H Bai. [2019] Measurements of turbulence sources in a swirl-supported diesel engine. International Journal of Engine Research, 22 (3), 975-985.

[60]H Zhao, T Wang, Z Che*. [2019] Full-field flow measurement in evaporating sessile droplets based on the Scheimpflug principle. Applied Physics Letters, 115, 091603.

[61]P Theodorakis*, Z Che*. [2019] Surface nanobubbles: Theory, simulation, and experiment. A review. Advances in Colloid and Interface Science, 272, 101995.

[62]S Shen, K Sun, Z Che*, T Wang*, M Jia, J Cai. [2019]. An experimental investigation of the heating behaviors of droplets of emulsified fuels at high temperature. Applied Thermal Engineering, 161, 114059.

[63]S Rong, S Shen, T Wang, Z Che*. [2019] Bouncing-with-spray mode and residence time of droplet impact on heated surfaces. Acta Physica Sinica, 68 (15), 154701. 荣松，沈世全，王天友，车志钊*. [2019] 液滴撞击加热壁面雾化弹起模式及驻留时间, 物理学报, 68 (15), 154701.

[64]C Yin, T Wang, Z Che, M Jia, K Sun*. [2018] Oblique impact of droplets on microstructured superhydrophobic surfaces. International Journal of Heat and Mass Transfer, 123, 693-704.

[65]K Sun, P Zhang, Z Che, T Wang*. [2018] Marangoni-flow-induced partial coalescence of a droplet on a liquid/air interface. Physical Review Fluids, 3, 023602.

[66]Z Che*, YF Yap, T Wang. [2018] Flow structure of compound droplets moving in microchannels. Physics of Fluids, 30 (1), 012114.

[67]Z Che*, OK Matar*. [2018] Impact of droplets on immiscible liquid films. Soft Matter, 14 (9), 1540-1551 (Back Cover Story).

[68]Q Guan, YF Yap*, HY Li and Z Che. [2018] Modeling of nanofluid-fluid two-phase flow and heat transfer. International Journal of Computational Methods, 15 (1), 1850072.

[69]X Fan, Z Che, T Wang*, Z Lu. [2018] Numerical investigation of boundary layer flow and wall heat transfer in a gasoline direct-injection engine. International Journal of Heat and Mass Transfer, 120, 1189-1199.

[70]Z Che*, OK Matar*. [2017] Impact of droplets on liquid films in the presence of surfactant. Langmuir, 33 (43), 12140-12148 (Cover Story).

[71]I Adebayo, Z Xie, Z Che, OK Matar. [2017] Doubly excited pulse waves on thin liquid films flowing down an inclined plane: An experimental and numerical study. Physical Review E, 96, 013118.

[72]W Yang, M Jia, Z Che, K Sun, T Wang*. [2017] Transitions of deformation to bag breakup and bag to bag-stamen breakup for droplets subjected to a continuous gas flow. International Journal of Heat and Mass Transfer, 111, 884-894.

[73]PJ Sáenz*, AW Wray, Z Che, OK Matar, P Valluri, J Kim, K Sefiane. [2017] Dynamics and universal scaling law in geometrically-controlled sessile drop evaporation. Nature Communications, 8, 14783.

[74]Z Che*, TN Wong, NT Nguyen. [2017] A simple method for the formation of water-in-oil-in-water (W/O/W) double emulsions. Microfluidics and Nanofluidics, 21, 8.

[75]Z Che*, PE Theodorakis. [2017] Formation, dissolution and properties of surface nanobubbles. Journal of Colloid and Interface Science, 487, 123-129.

[76]W Li, Y Li, T Wang*, M Jia, Z Che, D Liu. [2016] Investigation of the effect of the in-cylinder tumble motion on cycle-to-cycle variations in a direct injection spark ignition (DISI) engine using large eddy simulation (LES). Flow, Turbulence and Combustion, 98, 601-631.

[77]H Feng, TN Wong*, Z Che. [2016] Induced charge electrophoresis of a conducting cylinder in a nonconducting cylindrical pore and its micromotoring application. Physical Review Fluids, 1, 044103.

[78]H Feng, TN Wong*, Z Che, Marcos. [2016] Chaotic micromixer utilizing electro-osmosis and induced charge electroosmosis in eccentric annulus. Physics of Fluids, 28, 062003.

[79]C Zhang, Z Wu, Z Che, X Li, Y Sun*, L Ren. [2016] Liquid spreading on a pre-wetted biomimetic surface inspired by a dog's tongue. Science China Technological Sciences, 59 (5), 738-748.

[80]E Nowak*, NM Kovalchuk, Z Che, MJH Simmons. [2016] Effect of surfactant concentration and viscosity of outer phase during the coalescence of a surfactant-laden drop with a surfactant-free drop. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 505, 124-131.

[81]Z Che*, A Deygas, OK Matar*. [2015] Impact of droplets on inclined flowing liquid films. Physical Review E, 92, 023032.

[82]Z Che*, TN Wong, NT Nguyen, C Yang. [2015] Three dimensional features of convective heat transfer in droplet-based microchannel heat sinks, International Journal of Heat and Mass Transfer, 86, 455-464.

[83]Z Che*, F Fang, J Percival, C Pain, O Matar, M Navon. [2014] An ensemble method for sensor optimisation applied to falling liquid films. International Journal of Multiphase Flow, 67 (Supplement), 153-161.

[84]Z Che*, TN Wong, NT Nguyen, C Yang. [2014] Asymmetric heat transfer in liquid-liquid segmented flow in microchannels. International Journal of Heat and Mass Transfer, 77, 385-394.

[85]Z Che, TN Wong*, NT Nguyen. [2013] Heat transfer in plug flow in cylindrical microcapillaries with constant surface heat flux. International Journal of Thermal Sciences, 64, 204-212.

[86]Z Che, TN Wong*, NT Nguyen. [2012] Heat transfer enhancement by recirculating flow within liquid plugs in microchannels. International Journal of Heat and Mass Transfer, 55 (7-8), 1947-1956.

[87]Z Che, TN Wong*, NT Nguyen, JC Chai. [2012] Formation and breakup of compound pendant drops at the tip of a capillary and its effect on upstream velocity fluctuations. International Journal of Heat and Mass Transfer, 55 (4), 1022-1029.

[88]Z Che, NT Nguyen*, TN Wong*. [2011] Analysis of chaotic mixing in plugs moving in meandering microchannels. Physical Review E, 84 (6), 066309.

[89]Z Che, TN Wong*, NT Nguyen, YF Yap, JC Chai. [2011] Numerical investigation of upstream pressure fluctuation during growth and breakup of pendant drops. Chemical Engineering Science, 66 (21), 5293-5300.

[90]Z Che, TN Wong*, NT Nguyen. [2011] An analytical model for plug flow in microcapillaries with circular cross section. International Journal of Heat and Fluid Flow, 32 (5), 1005-1013.

[91]Z Che, NT Nguyen*, TN Wong. [2011] Hydrodynamically mediated breakup of droplets in microchannels. Applied Physics Letters, 98 (5), 054102.

[92]B Xu, TN Wong*, NT Nguyen, Z Che, JC Chai. [2010] Thermal mixing of two miscible fluids in a T-shaped microchannel. Biomicrofluidics, 4 (4), 044102.

[93]J Sivasamy, Z Che, TN Wong*, NT Nguyen, L Yobas. [2010] A simple method for evaluating and predicting chaotic advection in microfluidic slugs. Chemical Engineering Science, 65 (19), 5382-5391.

[94]Z Che, TN Wong*, NT Nguyen. [2010] An analytical model for a liquid plug moving in curved microchannels. International Journal of Heat and Mass Transfer, 53 (9-10), 1977-1985.