Titlebook: ;

initiate

mechanism

Lotus Versus Rose: Biomimetic Surface Effectstting with roughness. The contact angle (CA) and CA hysteresis are two parameters, which characterize the hydrophobicity/philicity of a solid surface. Lotus-effect surfaces have a high CA and low CA hysteresis. However, it was found recently that a high CA can coexist with strong adhesion between wa

lethargy

蜈蚣

Advanced Nanostructured Surfaces for the Control of Biofouling: Cell Adhesions to Three-Dimensional ficant adverse effects, e.g., increases flow friction by roughening surfaces. Previous studies demonstrated the effectiveness of surface microstructures on the prevention of biofouling, which is also closely associated with the surface energy and wettability. Unfortunately, the study of the anti-bio

Modicum

Green Nanotribology and Sustainable Nanotribology in the Frame of the Global Challenges for Humankin of science and embeds them in the major frame of the most serious problems we currently face on our planet. Fifteen global challenges are annually identified by the Millennium Project, a major undertaking that was started in 1996 and that incorporates organizations of the United Nations, government

大看臺(tái)

Towards Understanding Wetting Transitions on Biomimetic Surfaces: Scaling Arguments and Physical Mecir remarkable water repellence. The design of such surfaces allowing emerging green applications remains a challenging scientific and technological task. Understanding the physical mechanism of wetting transitions is crucial for design of highly stable superhydrophobic materials. The main experiment

執(zhí)拗

混雜人

zonules

粘土

Green Lubricants: Role of Additive Size and gear oils have brought about renewed interest in the development and use of green lubricants. In this light, many automotive and manufacturing industries are actively seeking out new green lubricants. Although, many green lubricants have exhibited excellent properties, more improvement in their