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Beijing Information Science & Technology University?

BISTU。

Never heard of it before。:blink:

Isnt it awesome?

BISTU's "Water" team is in fact a celebrity in the circuit

It has 2 World Champions titles before, in 2010 and 2011


http://wiki.robocup.org/wiki/Middle_Size_League


Goto http://www.defence.pk/forums/world-affairs/261834-china-wins-robot-world-cup-soccer-2013-a.html to watch some exciting vids




BISTU is not a top tier university but as our top notch universities move up, the next tiers advance too just like the development of our cities.

BISTU's campus development:

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Am I looking at a doppelgänger account of ephone? What ethnicity are you? What's your nationality? Political views?

@WebMaster @Oscar @Hu Songshan

Can you take a look at this guys posting history? Very suspicious - suddenly and spontaneously starts making one liners on different threads of completely different topics in a row. This guy sounds like ephone and if he isn't he still is being a troll.
 
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Self-cleaning clothes
A few hours of sunshine cleans specially treated cotton fabrics
By Stephen Ornes / January 10, 2012

Self-cleaning clothes | Science News for Kids
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Scientists in China have developed cotton fabric that uses sunlight to rid clothes of stains and smells. Credit: istockphoto


Cleaning clothes usually requires soap and water to remove stains and smells, and a tumble in the dryer or an afternoon on the clothesline to dry. The time and energy needed to turn a heap of dirty laundry into a pile of clean clothes might make people wish for clothes that just clean themselves.

That wish is a step closer to coming true. Recent experiments show that cotton fabric coated with the right mixture of chemicals can dissolve stains and remove odors after only a few hours in the sun.

“The technology can be applied to all kinds of fabrics and their related products,” says materials scientist Mingce Long. He helped develop the treated cotton with his colleague Deyong Wu, both of China’s Shanghai Jiao Tong University.

The handy fabric gets its self-cleaning abilities from a chemical mixture that coats the cotton threads. The coating includes substances known as photocatalysts, which trigger chemical reactions in light. One of those photocatalysts, called titanium dioxide, helps sunscreen block the sun and is used as tattoo ink. Another, called silver iodide, is used for developing photographs.

Researchers have previously shown that titanium dioxide mixtures could remove stains in clothes — but with exposure to ultraviolet, not visible, light. (The waves of ultraviolet light are more energetic and shorter than those of visible light.) Other studies have demonstrated that silver iodide can speed up chemical reactions in sunlight.

“We knew that self-cleaning cotton fabrics with titanium dioxide coating had already been developed, but they cannot work, or they work weakly, under sunlight,” Long says. “If we want to use the fabrics in daily life, we must develop cotton that cleans itself under daylight.”

Long and Wu created just such a fabric, working for years to perfect the recipe for a liquid dip that left cotton coated with the titanium dioxide mixture. Then they added particles of silver iodide, which boosted the fabric’s self-cleaning ability in the sun. In laboratory tests, their creation was nearly seven times better at removing stains (and killing bacteria lurking in the clothing) than titanium dioxide alone.

The scientists can’t start selling their self-cleaning cotton just yet; scientists still need to make sure the coated cotton won’t harm those who wear it. Although titanium dioxide is used in some foods, recent experiments have shown that it can cause health problems if it gets in the lungs. So before the material can be worn, scientists need to find a way to make it safe.

Still, Long says that he hopes to wear self-cleaning clothes one day — and avoid having to do laundry. “Someday in the future, when I walk on the street,” he says, “I hope people are wearing self-cleaning clothes that originated from my technology.”

POWER WORDS (adapted from the New Oxford American Dictionary)

photocatalyst A substance that starts a chemical reaction when exposed to light.

chemical reaction A process that involves rearrangement of the molecules or structure of a substance, as opposed to a change in physical form.

titanium dioxide A white, unreactive, solid material that occurs naturally as a mineral and is used extensively as a white pigment.

silver iodide A yellow powder that darkens with exposure to light. It is used in photography and artificial rainmaking.


Shanghai Jiaotong University, China

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Physics Department, SJTU

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SJTU - School of Medicine

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I must have self cleaning clothes, since I hate laundering them.

So please, shut up and take my money!
 
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Self-powering cloth electronics
1 July 2013 Emily Skinner

Self-powering cloth electronics | Chemistry World
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Scanning electron micrograph image of the tin dioxide cloth

Chinese scientists have made compact, self-powering, bendable photodetectors from tin dioxide cloth.

Flexible electronics are an exciting area of research with foldable displays and wearable electronics being potential uses. Self-contained power generation complements flexibility by removing the need for bulky external power supplies to make smaller devices more feasible.

Guozhen Shen from the Chinese Academy of Sciences, and co-workers at the Wuhan National Laboratory for Optoelectronics, have made tin dioxide cloth by growing tin dioxide nanoparticles on a carbon cloth template to give hollow microtubes of tin dioxide in a woven pattern. Tin dioxide is a wide band gap semi-conductor that has high quantum efficiency in the UV region, making it a good material for both battery electrodes and light sensing. Shen’s team integrated a tin dioxide cloth-based UV photodetector and a tin dioxide cloth-based lithium-ion battery into one device to form a flexible, self-powering photodetector that can be trimmed to match any shape. The detector’s performance is comparable to conventional devices and, importantly, no change in performance occurs when the cloth is folded.

Shen says that fabricating large areas of cloth that retain a consistent woven structure was initially challenging, however, by growing a dense layer of nanoparticles on the template a well-defined structure could be reliably formed. He is pleased that the resulting device ‘is a very simple system possessing advantages of adjustable size and portability.’

Jia Huang of Tongji University, China, an established researcher in the field of materials chemistry and electronics, is impressed by this low cost approach to fabricating flexible electronic devices which have ‘unique applications in foldable, stretchable and wearable electronic systems.’ However, he warns that optimising the mechanical durability of the cloth will be important when developing these devices in the future.

Shen and colleagues plan to develop even smaller and neater devices from this prototype to suit a wide range of applications.

Reference: SnO2-Microtubes-Assembled Cloth for Fully-Flexible Self-Powered Photodetector Nanosystems - Nanoscale (RSC Publishing).


Wuhan National Laboratory for Optoelectronics


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Huazhong University of Science and Technology
where WNLO is an integral part

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Tongji University, Shanghai China


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Great move. Hope India do the same and invest heavily in building world class Universities and research centers.
 
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World's first "spider silk" sheep was born in Inner Mongolia

news.xinhuanet.com/photo

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Photo shots of Inner Mongolia Agricultural University, sheeps born with spider silk characteristic hair

世界首例蜘蛛牵丝细毛羊和绒山羊6月中旬在内蒙古农业大学诞生。这些出生半个多月的羊羔健康状况良好,外形与普通羊羔没有什么差别。蜘蛛牵丝是目前发现的韧性、强度和弹力最优质的天然纤维,其超高的强度和出色的弹性是其他天然和人工材料无法比拟的。 新华社记者 王春燕摄


Hohhot, July 5, 2013 (Xinhua News) -- World's first Spider Dragline Silk and cashmere sheep in mid-June was born in Inner Mongolia Agricultural University. These sheeps born half a month in good health, appearance is no different from ordinary sheep. Spider Dragline silk is found in the toughness, strength and elastic highest quality natural fibers, its high strength and excellent elasticity are other natural and artificial materials can not match. Xinhua News Agency reporters Wang Chun and Yan She




Inner Mongolia Agricultural University

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Self Rescue Bracelet: Inflatable Life-Saving Bangles

August 15, 2012

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Self Rescue Bracelet is an expanding flotation device that a swimmer can activate if they run into difficulties in the water. Created by Chinese designers, it won this year's Red *** award.

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Even the strongest swimmers can find themselves in an emergency situation and in need of rescue. Cramping of the leg is an example of how such an emergency might arise. Self Rescue Bracelet could prevent a tragedy from occurring.

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Designed by:
Wu Xuexing, Zhu Linghui, Zhu Peizheng

:coffee:
 
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Simply love Hanzi!

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The world's only 。。。:cheers:
 
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June 10, 2013

China accelerates technology development to build up its IC sector.:coffee:

China’s IC industry gears up for further development after research yielded its first MOSFET with a 22nm gate length. Makers are waiting for improvements in production techniques, which will pave the way for mass manufacture and provide technical leverage for future endeavors. The last includes the plan to venture into the 16nm and below processes.

The Institute of Microelectronics of the Chinese Academy of Sciences or IMECAS achieved the breakthrough, which includes an advanced high-k/metal gate module. The latter technology for the last is widely adopted in 22nm production to realize lower device power consumption and cost.

During the research period, IMECAS worked on addressing challenges in manufacturing and integration processes, which cover interface, gate, and source and drain engineering, to comply with standards in industrial applications. It applied for 1,369 patents, including 424 international ones.

The national government lent support to the pilot R&D on 22nm core technologies, which began in 2009. Spearheaded by IMECAS, the project involved the Peking University, Tsinghua University and Fudan University. The goal is to reduce reliance on imported chips and raise the country’s competitiveness in the business.

To date, the key players using the 22nm process are Intel in its 3D tri-gate transistors, and the IBM and AMD partnership in SRAM chips. Global Foundries, IMEC, Samsung, Toshiba and TSMC have released their respective technology versions.

Local manufacturers such as Fuzhou Rockchip Electronics Co. Ltd continue working on 28nm products. They highlight chip features, which are 55 percent better in terms of performance than 45nm variants, and consume 60 percent less power.

Last year, the supplier introduced China’s first such chip, which is the world’s second quad-core model next to the APQ8064 from Qualcomm. Fuzhou Rockchip’s RK3188 integrates a Cortex-A9 processor and targets mainly tablet PCs.

22nm breakthrough invigorates China's IC industry
 
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TSMC in Taiwan are the world's largest chip manufacturer ..
China will have a tough competition.
 
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TSMC in Taiwan are the world's largest chip manufacturer ..
China will have a tough competition.

Taiwan is an integral part of China.

We don't at all mind Taiwan's becoming a leading force in chip-related technologies.

As a matter of fact, there is an agreement between Taiwan and Mainland China which specifically aims to make Taiwan the world's most competitive in chip manufacturing by requesting Mainland Chinese firms to favour Taiwanese products wherever possible。

Anyhow, TSMC's centre of operation is increasingly shifted to Mainland China, where sales are expected to top $1.4 billion in 2013:

Digitimes Research: TSMC expanding in China
 
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