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Novel platform purifies oil-contaminated seawater

The United Nations’ most recent Intergovernmental Panel on Climate Change report paints a bleak picture for the world’s water supply: Of the 7.8 billion people on Earth, about 4 billion do not hav .

China
Miao-wang
Guangxi
Xiamen
Fujian
Chinese
Xu-hou
Shutao-wang
Technical-institute-of-physics
Key-laboratory-of-materials
Xiamen-university-college-of-materials
Intergovernmental-panel-on-climate

Improved Water Purification System to Decontaminate Seawater

According to the latest Intergovernmental Panel on Climate Change report from the United Nations, nearly 4 billion out of 7.8 billion people on Earth do not have access to adequate clean water for as minimum as one month per year, painting a dismal image for the world’s water supply.

China
Miao-wang
Guangxi
Xiamen
Fujian
Chinese
Haonan-li
Xu-hou
Shutao-wang
Shuli-wang
Yikai-zhang
Xuetao-xu

New platform uses sunlight to efficiently purify oil-contaminated water

The United Nations’ most recent Intergovernmental Panel on Climate Change report paints a bleak picture for the world’s water supply: Of the 7.8 billion

China
Miao-wang
Guangxi
Xiamen
Fujian
Chinese
Haonan-li
Xu-hou
Shutao-wang
Shuli-wang
Yikai-zhang
Xuetao-xu

Nanotechnology Now - Press Release: Confined magnetic colloidal system for controllable fluid transport

Nanotechnology Now Home > Press > Confined magnetic colloidal system for controllable fluid transport Schematics of confined colloids in different states via remote and dynamic magnetic regulation CREDIT ©Science China Press Abstract: Colloidal suspensions of microscopic particles show complex and interesting collective behaviors. In particular, the collective dynamics of colloids is fundamental and ubiquitous for materials assembly, robotic motion, microfluidic control, and in several biological scenarios. The collective dynamics of confined colloids can be completely different from that of free colloids: for instance, confined colloids can self-organize into vortex structures, coherent motion, or different phase behaviors. On one hand, due to the complexity of colloidal suspensions, how to finely tune the collective dynamics of confined colloids remains elusive. On the other hand, since the microscale confinement is on the same length scale as the colloidal size, it is dif

Beijing
China
Fujian
Canada
Xiamen
Chinese
Xu-hou
Microfluidics-nanofluidics
Technical-institute-of-physics
Key-laboratory-of-materials
National-natural-science-foundation-of-china
Engineering-research-council-of-canada

Confined magnetic colloidal system for controllable fluid transport

E-Mail Credit: ©Science China Press Colloidal suspensions of microscopic particles show complex and interesting collective behaviors. In particular, the collective dynamics of colloids is fundamental and ubiquitous for materials assembly, robotic motion, microfluidic control, and in several biological scenarios. The collective dynamics of confined colloids can be completely different from that of free colloids: for instance, confined colloids can self-organize into vortex structures, coherent motion, or different phase behaviors. On one hand, due to the complexity of colloidal suspensions, how to finely tune the collective dynamics of confined colloids remains elusive. On the other hand, since the microscale confinement is on the same length scale as the colloidal size, it is difficult to determine how the colloids interplay with each other and the geometrical constraints.

China
Jing-liu
Shaanxi
Fujian
Canada
Xiamen
Chinese
Jianyu-li
Xu-hou
Xinyu-chen
Zhizhi-sheng
Rongrong-zhang

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