Wetting:superhydrophobic behavior
1. Chaolang Chen, Chuan Du, Ding Weng, Awais Mahmood, Dong Feng, and Jiadao Wang,Robust Superhydrophobic Polytetrafluoroethylene Nanofibrous Coating Fabricated by Self-Assembly and Its Application for Oil/Water Separation,ACS Appl. Nano Mater. 1 (6), 2018, 2632–2639
2. Awais Mahmood, Shuai Chen, Chaolang Chen, Ding Weng, and Jiadao Wang, Directional Motion of Water Droplet on Nanocone Surface Driven by Curvature Gradient: A Molecular Dynamics Simulation Study. J. Phys. Chem. C, 122(26), 2018, 14937-14944
3. Li Yang, Wang Jia-Dao, Fan Li-Ning, et al, Feasible Fabrication of a Durable Superhydrophobic Coating on Polyester Fabrics for Oil-Water Separation,Acta Physico-Chimica Sinica, 32(4), 2016, 990-996
4. Jiadao Wang, Shuai Chen, Darong Chen, Spontaneous transition of a water droplet from the Wenzel state to the Cassie state: a molecular dynamics simulation study, Physical Chemistry Chemical Physics, 17(45), 2015, 30533-9
5. Shuai Chen, Jiadao Wang, and Darong Chen, States of a Water Droplet on Nanostructured Surfaces, J. Phys. Chem. C 118 (32), 2014, 18529-18536
6. Shuai Chen, Jiadao Wang, Tianbao Ma, and Darong Chen, Molecular dynamics simulations of wetting behavior of water droplets on polytetrafluorethylene surfaces, The Journal of Chemical Physics 140, 2014, 114704
7. Wang Jiadao, Li Aang, Chen Haosheng, Chen Darong. Synthesis of biomimetic superhydrophobic surface through electrochemical deposition on porous alumina. Journal of Bionic Engineering 8(2), 2011, 122 - 128
8.Sui Tao, Wang Jiadao, Chen Darong, Spreading of a fluid phase on a spherical surface, Journal of Colloid and Interface Science 358, 2011, 284-289
9. Jiadao Wang, Fengbin Liu, Haosheng Chen, Darong Chen, Superhydrophobic behavior achieved from hydrophilic surfaces, Applied Physics Letters, 95 2009 084104-1~084104-3
10.Jiadao Wang, Haosheng Chen, Tao Sui, Ang Li, Darong Chen, Investigation on hydrophobicity of lotus leaf: Experiment and theory, Plant Sci. 176 2009 687-695
11.Jiadao Wang, Darong Chen,Criteria for Entrapped Gas under a Drop on an Ultrahydrophobic Surface, Langmuir, 24 2008 10174-10180
Self-assembly of colloidal particles
1. Dong Feng, Ding Weng, JiadaoWang, A Facile Interfacial Self-Assembly of Crystalline Colloidal Monolayers by Tension Gradient, Micromachines, 9, 2018, 297
2. Dong Feng, Ding Weng, Bao Wang, and Jiadao Wang, Laser pulse number dependent nanostructure evolution by illuminating self-assembled microsphere array, Journal of Applied Physics 122, 2017, 243102
3. Jiadao Wang, Shuai Chen, Kai Cui, Dangguo Li, and Darong Chen, Approach and Coalescence of Gold Nanoparticles Driven by Surface Thermodynamic Fluctuations and Atomic Interaction Forces, ACS Nano 10, 2016, 2893-2902
4. C. Du, J. Wang, Z. Chen, D. Chen, Durable Superhydrophobic and Superoleophilic Filter Paper for Oil/Water Separation Prepared by A Colloidal Deposition Method, Applied Surface Science 313, 2014, 304-310
5. Chuan Du, Jiadao Wang, and Darong Chen, Self-Assembly of Polytetrafluoroethylene Nanoparticle Films Using Repulsive Electrostatic Interactions, Langmuir 30, 2014, 976-983
Surface drag reduction
1. Bao Wang, Jiadao Wang, Darong Chen, Na Sun, Tao Wang, Experimental investigation on underwater drag reduction using partial cavitation, Chinese Physics B, 26(5), 2017, 054701-1-6
2. Wang B, Wang JD, Zhou G et al, Drag reduction by micro vortexes in transverse microgrooves. Advances in Mechanical Engineering, 2014, http://www.hindawi.com/journals/ame/aip/734012/
3. Wang B, Wang JD, Chen DRDrag reduction on hydrophobic transverse grooved surface by gas naturally formed underwater. Acta Phys Sin 63, 2014, 074702
4. Wang B, Wang JD, Chen DR, Continual Automatic Generation of Gases on Hydrophobic Transverse Microrooved Surface. Chem Lett 43(5), 2014, 646-648
5. Bao Wang, JiadaoWang, ZhaoliangDou,DarongChen, Investigation of retention of gases in transverse hydrophobic microgrooved surfaces for drag reduction, Ocean Engineering79, 2014, 58-66
6. Zhaoliang Dou, Jiadao Wang, Darong Chen, Bionic Research on Fish Scales for Drag Reduction, Journal of Bionic Engineering 9, 2012, 457–464
7. DOU ZhaoLiang, WANG JiaDao, YU Feng, CHEN, DaRong, Fabrication of micro-structureed surface based on interfacial convection for drag reduction, Chinese Science Bulletin, 56, 2011,626-632
8. Jiadao Wang, Haosheng Chen, Zhongling Han, Darong Chen, Investigation of the Effect of Milli-Scale Dimples on Planar Contact Lubrication, Tribology Transactions 53, 2010, 564-572
Cavitation erosion
1. Dayun Yan, Jiadao Wang, Fengbin Liu, Kenan Rajjoub, Formation of the self-assembled structures by the ultrasonic cavitation erosioncorrosion effect on carbon steel, AIP Advances, 5, 2015, 917132-1-9
2. Dayun Yan, Jiadao Wang*, Fengbin Liu, Inhibition of the ultrasonic microjet-pits on the carbon steel in the particles-water Mixtures, AIP Advances, 5, 2015, 077159-1-9
3. Dayun Yan, Jiadao Wang, The effect of acoustic streaming on the ring area around the cavitation erosion pit, Transactions of the ASME Journal of Tribology, 2014, 136(2), 021102-1-5.
4. XU WanLi, WANG JiaDao, ZHAO Wei, CHEN DaRong, Effect of microparticle properties on erosion in solid-steam mixtures, Chinese Science Bulletin, .56(9), 2011, 933–937
5. Xu Wanli, Wang Jiadao, Qin Li, Chen Haosheng, Chen Darong, Investigation of Erosion Damages Induced by Wet Steam Containing Micro-Particles, Tribol Lett 39, 2010,115–120
6. Chen HS, Wang JD, Chen DR. Cavitation damages on solid surfaces in suspensions containing spherical and irregular microparticles. Wear. 266 2009 345-348
7. WANG JiaDao, CHEN HaoSheng, QIN Li, LI YongJian, CHEN DaRong, Key roles of micro-particles in water on occurrence of cavitation-erosion of hydro-machinery, Chinese Science Bulletin, 53(10) 2008 1603-1607
Antifouling
1. Jiadao Wang, Shan Cao, Chuan Du, Darong Chen, Underwater locomotion strategy by a benthic pennate diatom Navicula sp., Protoplasma, 250, 2013, 1203–1212
2. Shan Cao, Jiadao Wang, Dangguo Li, Darong Chen, Ecological and social modeling for migration and adhesion pattern of a benthic diatom, Ecological Modelling, 250, 2013 269– 278
3. Cao, Shan; Wang, Jiadao; Chen, Darong, Settlement and cell division of diatom Navicula can be influenced by light of various qualities and intensities, Journal of Basic Microbiology, 53(11) , 2013, 884-894
4. Shan Cao, Jiadao Wang, Yan Zhang, Darong Chen, The effectiveness of an antifouling compound coating based on a silicone elastomer and colored phosphor powder against Navicula species diatom, Journal of Coatings Technology and Research, 10 (3), 2013, 397-406
5. Shan Cao, Jiadao Wang, Darong Chen, Influence of Illumination on Settlement of Diatom Navicula sp., Microbial Ecology, 62(4 ), 2011, 931-940
6. CAO Shan, WANG JiaDao, CHEN HaoSheng, CHEN, DaRong, Progress of marine biofouling and antifouling technologies, Chinese Science Bulletin, 56, 2011,598-612
Interface physics
1. Rong Yu, Hao Wu, Jia Dao Wang, and Jing Zhu, Strain Concentration at the Boundaries in 5-Fold Twins of Diamond and Silicon, ACS Appl. Mater. Interfaces, 9, 2017, 4253-4258
2. Li, D. G.; Chen, D. R.; Wang, J. D.; et al.,Effect of acid solution, fluoride ions, anodic potential and time on the microstructure and electronic properties of self-ordered TiO2 nanotube arrays, Electrochimica Acta, 207, 2016, 152-163
3. Li, D. G.; Wang, J. D.; Chen, D. R.; et al,.Influence of passive potential on the electronic property of the passive film formed on Ti in 0.1 M HCl solution during ultrasonic cavitation, Ultrasonics Sonochemistry, 29, 2016, 48-54
4. Li, D. G.; Wang, J. D.; Chen, D. R.; et al, The role of passive potential in ultrasonic cavitation erosion of titanium in 1 M HCl solution, .Ultrasonics Sonochemistry, 29, 2016, 279-287
5. D.G. Li, J.D. Wang , D.R. Chen , P. Liang, Influence of Passive Potential on the Electronic Property of the Passive Film Formed on Ti in 0.1M HCl Solution during Ultrasonic Cavitation, Ultrasonics Sonochemistry 29, 2015, 48-54
6. Li, D. G.; Wang, J. D.; Chen, D. R., Liang, P., Ultrasonic cavitation erosion of Ti in 0.35% NaCl solution with bubbling oxygen and nitrogen, Ultrasonics Sonochemistry, 26, 2015, 99-110
7. Li, D. G.; Wang, J. D.; Chen, D. R., Molybdenum addition enhancing the corrosion behaviors of 316 L stainless steel in the simulated cathodic environment of proton exchange membrane fuel cell, International Journal of Hydrogen Energy, 40(17) , 2015, 5947-5957
8. Li DG, Wang JD, Chen DR, Liang P, Influences of pH value, temperature, chloride ions and sulfide ions on the corrosion behaviors of 316L stainless steel in the simulated cathodic environment of proton exchange membrane fuel cell, Journal of Power Sources. 272, 2014, 448-456
9. D.G. Li, J.D. Wang, D.R. Chen, Influence of pH value on the structure and electronic property of the passive film on 316L SS in the simulated cathodic environment of proton exchange membrane fuel cell (PEMFC), International Journal of Hydrogen Energy, 39, 2014, 20105-20115
10.Li DG, Wang JD, Chen DR, Effects of Sm and Y on the electron property of the anodic film on lead in sulfuric acid solution, Journal of Power Sources, 235, 2013, 202-213
11.D.G. Li , J.D. Wang, D.R. Chen, Influence of ytterbium on the electrochemical property of PbCaSn alloy in sulfuric acid solution, Journal of Power Sources, 210, 2012, 163– 171
12.D.G. Li, J.D. Wang, D.R. Chen, Influence of potentiostatic aging, temperature and pH on the diffusivity of a point defect in the passive film on Nb in an HCl solution, Electrochimica Acta , 60, 2012, 134– 146
13.Jiao Jiao, Jiadao Wang, Qunxia Chen, and Jingbo Hua, Characterization and Electrochemical Properties of Gold-Ion Implanted Boron-Doped Diamond, Journal of The Electrochemical Society, 158 (12), 2011, K230-K235
14.D. G. Li, J. D. Wang and D. R. Chen, Influences of Temperature, pH value and Sn content on Corrosion Behaviors of Lead in Sulfur Acid Solution, Journal of Power Sources, 196, 2011, 8789-8801.
15.Jiadao Wang, Fengbin Liu, Haosheng Chen, Darong Chen. The electron transfer behavior of the hydrogen- terminated boron-doped diamond film electrode. Mater. Chem. Phys. 115 2009 590-598
16. Fengbin Liu, Jiadao Wang, Darong Chen, Dayun Yan. Electronic properties of the hydrogen-terminated and oxygen-terminated diamond surfaces after exposure to the atmosphere. Chin. Phys. B 18 2009 2041-2047
17.Fengbin Liu, Jiadao Wang, Darong Chen. Ab initio Study of Hydrogen-boron interactions in diamond films. J. Nanosci. Nanotechnol. 9 2009 727-730
18.Zhao, W; Wang, JD; Liu, FB Chen, DR, Equilibrium geometric structure and electronic properties of Cl and H2O co-adsorption on Fe (100) surface, CHINESE SCIENCE BULLETIN 54(8) 2009 1295-1301
19.Zhao, W; Wang, JD; Liu, FB Chen, DR, First principles study of H2O molecule adsorption on Fe(100), Fe(110) and Fe(111) surfaces, ACTA PHYSICA SINICA 58(5) 2009 3352-3358