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[1]Yuan, Zi-Chao.Research progress on droplet directional transport on wetting surfaces[J],Surface Technology,2022,50(8):1-17
[2]刘亚华.Synchronous oil/water separation and wastewater treatment on a copper-oxide-coated mesh[J],RSC ADVANCES,2022,11(29):17740-17745
[3]Liu, Cong.Robust Slippery Liquid-Infused Porous Network Surfaces for Enhanced Anti-icing/Deicing Performa...[J],ACS Applied Materials Interfaces,2022,12(22):25471-25477
[4]Chonglei Hao.Superhydrophobic-like tunable droplet bouncing on slippery liquid interfaces[J],Nature Communications,2022,6:7986
[5]刘亚华.Superhydrophobic porous networks for enhanced droplet shedding[J],Scientific Reports,2022,6:33817
[6]刘亚华.Symmetry breaking in drop bouncing on curved surfaces[J],Nature Communications,2022,6
[7]Zhang, Shuaijun.Optimum Anti-erosion Structures and Anti-erosion Mechanism for Rotatory Samples Inspired by Scorp...[J],JOURNAL OF BIONIC ENGINEERING,2022,18(1):92-102
[8]Liu, Cong.One-step process for dual-scale ratchets with enhanced mobility of Leidenfrost droplets[J],JOURNAL OF COLLOID AND INTERFACE SCIENCE,2022,569:229-243
[9]李红霞.Multi-Objective Optimizations of Biodegradable Polymer Stent Structure and Stent Microinjection...[J],Polymers,2022,9(1)
[10]Lisa Moevius.Pancake bouncing: Simulations and theory and experimental verification[J],LANGMUIR,2022,30(43)
[11]Liu, Cong.Multibioinspired JANUS Membranes with Spatial Surface Refreshment for Enhanced Fog Collection[J],ADVANCED MATERIALS INTERFACES,2022,8(20)
[12]刘亚华.Controlling drop bouncing using surfaces with gradient features[J],APPLIED PHYSICS LETTERS,2022,107(5)
[13]冯诗乐.Three-dimensional capillary ratchet-induced liquid directional steering[J],SCIENCE,2022,373(6561):1344-+
[14]Andrew, Matthew.Variation of the Contact Time of Droplets Bouncing on Cylindrical Ridges with Ridge Size[J],LANGMUIR,2022,33(30):7583-7587
[15]赵丹阳.Temperature-regulated directional bounce of impacting droplets on gradient grooves[J],SURFACE COATINGS TECHNOLOGY,2022,356:132-137
[16]Liu, Cong.Design of superhydrophobic pillars with robustness[J],SURFACE COATINGS TECHNOLOGY,2022,361:342-348
[17]Liu, Cong.Directional Droplet Transport Mediated by Circular Groove Arrays. Part I: Experimental Findings[J],LANGMUIR,2022,36(32):9608-9615
[18]Liu, Cong.Directional Droplet Transport Mediated by Circular Groove Arrays. Part II: Theory of Effect[J],LANGMUIR,2022,37(5):1948-1953
[19]刘亚华.Directional transport of high-temperature Janus droplet mediated by structural topography[J],Nature Physics,2022,12(6):0-0
[20]王浩.Droplet Asymmetric Bouncing on Inclined Superhydrophobic Surfaces[J],ACS omega,2022,4(7):12238-12243
[21]刘亚华.Droplet dynamics on slippery surfaces: Small droplet, big impact[J],Biosurface and Biotribology,2022,5(2):35-45
[22]Guo, Chunfang.Droplet Impact on Anisotropic Superhydrophobic Surfaces[J],LANGMUIR,2022,34(11):3533-3540
[23]Zhan, Haiyang.Horizontal Motion of a Superhydrophobic Substrate Affects the Drop Bouncing Dynamics[J],PHYSICAL REVIEW LETTERS,2022,126(23)
[24]刘亚华.高温表面液滴沸腾模式及其定向运动的研究进展[J],机械工程学报,2018,54(20):24-39
[25]Su, Junpeng.Faceted and Circular Droplet Spreading on Hierarchical Superhydrophobic Surfaces[J],LANGMUIR,2020,36(2):534-539
[26]刘聪.Directional Droplet Transport Mediated by Circular Groove Arrays. Part II: Theory of Effect[J],Langmuir,2021,37(5):1948-1953
[27]Su, Junpeng,Legchenkova, Irina,Liu, Cong,Lu, Chenguang,Ma, Guangyi,Bormashenko, Edward,Liu, Yahua.Faceted and Circular Droplet Spreading on Hierarchical Superhydrophobic Surfaces[J],LANGMUIR,2020,36(2):534-539
[28]Zhan, Haiyang,Shan, Chengwei,Lu, Chenguang,Liu, Cong,Wang, Ge,Liu, Yahua.Drop impact on a superhydrophobic surface with single groove[A],2019,267(3)
[29]Wang, Hao,Liu, Cong,Zhan, Haiyang,Liu, Yahua.Droplet Asymmetric Bouncing on Inclined Superhydrophobic Surfaces[J],ACS OMEGA,2019,4(7):12238-12243
[30]Zhao, Danyang,Zhan, Haiyang,Sun, Yanjun,Liu, Cong,Wang, Minjie,Liu, Junshan.Temperature-regulated directional bounce of impacting droplets on gradient grooves[J],SURFACE & COATINGS TECHNOLOGY,2018,356:132-137
[31]刘亚华,孙炎俊,郭纯方,赵丹阳.高温表面液滴沸腾模式及其定向运动的研究进展[J],机械工程学报,2018,54(20):24-39
[32]Guo, Chunfang,Zhao, Danyang,Sun, Yanjun,Wang, Minjie,Liu, Yahua.Droplet Impact on Anisotropic Superhydrophobic Surfaces[J],LANGMUIR,2018,34(11):3533-3540
[33]Andrew, Matthew,Liu, Yahua,Yeomans, Julia M..Variation of the Contact Time of Droplets Bouncing on Cylindrical Ridges with Ridge Size[J],LANGMUIR,2017,33(30):7583-7587
[34]Li, Hongxia,Liu, Yahua,Wang, Xinyu,Wei, Yunbo,Liu, Tao,Gu, Junfeng,Li, Zheng,Wang, Minjie,Zhao, Danyang,Qiao, Aike.Multi-Objective Optimizations of Biodegradable Polymer Stent Structure and Stent Microinjection...[J],POLYMERS,2017,9(1)
[35]Liu, Yahua,Wang, Zuankai.Superhydrophobic porous networks for enhanced droplet shedding[J],SCIENTIFIC REPORTS,2016,6:33817
[36]Wang, Hairui,Guo, Chunfang,Li, Yujie,Liu, Yahua,Wang, Minjie,You, Zhong,Zhao, Danyang.STRUCTURAL DESIGN AND FORMING METHOD OF SINGLE-CURVED SURFACE STRUCTURE BASED ON MIURA-ORIGAMI[A],2016,5B-2016
[37]刘亚华.Directional transport of high-temperature Janus droplet mediated by structural topography[J],Nature Physics,2016,12(6):0-0
[38]刘亚华.Bioinspired Interfacial Materials with Enhanced Drop Mobility: From Fundamentals to Multifunction...[J],Small,2016,2:1-15
[39]Liu, Yahua,Andrew, Matthew,Li, Jing,Wang, Zuankai,Yeomans, Julia M..Symmetry breaking in drop bouncing on curved surfaces[J],NATURE COMMUNICATIONS,2015,6
[40]Liu, Yahua,Whyman, Gene,Bormashenko, Edward,Hao, Chonglei,Wang, Zuankai.Controlling drop bouncing using surfaces with gradient features[J],APPLIED PHYSICS LETTERS,2015,107(5)