Sometimes purism peaks after a war or in a post-colonial situation. South Korea tried to de-Japanify its language after World War II; the Indian and Pakistani governments tried to separate Hindi and Urdu after their partition. A purist approach can also be a smaller language’s way of resisting outside influence. In Iceland, the Icelandic Language Institute preserves the country’s Viking-era language by cobbling together new terms from indigenous roots. Some Native American groups do the same to resist English.
Henan Polytechnic University (HPU)[1], with a history of nearly 100 years, is the first mining university in Chinese history. Its former is Jiaozuo Coal Mining School which was established by the British Syndicate Co. Ltd., in 1909. It has changed its names several times in the course of development, namely, FuZhong Coal Mining University, Jiaozuo Private Institute of Technology, North-west Institute of Technology, Jiaozuo National Institute of Technology, Jiaozuo Mining Institute and Jiaozuo Institute of Technology. The University resumed its name of Henan Polytechnic University in 2004.

     Jihui Yang is currently the Kyocera Associate Professor at Materials Science and Engineering Department of the University of Washington, Seattle, Washington.  Prior to joining the University of Washington in the Fall of 2011, he was a Technical Fellow and Lab Group Manager at GM Research and Development Center, responsible for leading GM’s research on Li-ion battery materials and systems; as well as advanced thermoelectric materials and technology development.  
“It’s quite hard for us to find jobs,” Wang says. “We’re not young, and we don’t have other skills.” When he first started doing short-term construction work earlier this year, he didn’t even know how to mix concrete, but other workers were friendly and helped teach him the basics. He doesn’t mind the labor, though it leaves him sore. He feels his cheeks are stiff after days away from the suona — a reminder that he was once a master musician.

The importance of porous carbon as the support material is well recognized in the catalysis community, and it would be even more attractive if several characteristics are considered, such as the stability in acidic and basic media or the ease of noble metal recovery through complete burn off. Because it is still difficult to obtain constant propert...
Interface translation: Tomislav Kuzmić (Croatian), Vasudevan Tirumurti, Fahim Razick (Tamil), Matti Tapanainen (Finnish), Ebru Bağlan (Turkish), Arsene Ionuț, Cristina Crisan (Romanian), Daiva Macijauskė (Lithuanian), Tetiana M. (Ukrainian), András Tuna (Hungarian), Jakob Lautrup Nysom (Danish), Andre Abdullin, Elena Zvaritch (Russian), Catherine Györvàry (French), Gab M., Klaus Röthig (Portuguese), Marcin Orzełek (Polish), Stefanija Madzoska, Daniel Matrakoski (Macedonian), Selina Lüdecke, P. H. Claus (German), Vangelis Katsoulas (Greek), Roberto Marchesi (Italian), Robin van der Vliet (Esperanto), Reno Rake (Indonesian), Nahuel Rodríguez (Spanish), Gao Pan (Chinese), Hoài Sang Lăng (Vietnamese)
High-quality graphene flakes have long been desirable for numerous applications including energy storage, printable electronics, and catalysis. In this contribution, we report a green, efficient, facile gas-driven exfoliation process for the preparation of high-quality graphene in large scale. The gas exfoliation process was realized by the interpl...

Chinese is an imperial language that has always loaned more than it borrowed. In the Max Planck Institute’s World Loanword Database, Mandarin Chinese has the lowest percentage of borrowings of all 41 languages studied, only 2 percent. (English, with one of the highest, has 42 percent.) In part because of the difficulty of translating alphabet-based languages into Chinese characters, it’s common to see what are called “calques”—nonphonetic literal translations like “re gou” for “hot dog” or “zhi zhu ren” for “Spiderman.” Despite (or because of) the vast appetite among the Chinese for learning English as a foreign language, Chinese ministers have recently cracked down on loanwords. And yet Chinese people still say “baibai” and “sorry”; “e-mail” is just a lot easier than “dianzi youjian,” the official substitute.
Jihua Group Corporation Limited was founded on June 26, 2009 after having approved by State-owned Assets Supervision and Administration Commission of the State Council, and the capital was contributed by Xinxing Cathay International Group Co., Ltd. and Xinxing Real Estate (Investment) Development Co., Ltd.  On August 16, 2010, the Jihua Group (code: 601718) had successfully listed its Class A shares in Shanghai Stock Exchange. There are 30 level two wholly owned subsidiaries, 4 class three subsidiaries and 3 joint stock class three companies under the leadership of Jihua Group Corporation Limited, these companies are located in 21 provinces, municipalities directly under the Central Government, autonomous regions, with a assets value over 10 billion yuans. It is the production and guarantee base of military supplies for Chinese army and armed police force, the main supplier for government uniform units and professional clothes units, and the main purchase and processing base for international military munitions market. Its main business scope includes the manufacturing and sale of garments, shoes and hats, textile dyeing and printing, leather fittings, rubber products; investment and management of pharmaceutical, chemical, resource development; import and export business, technical development, technical service and management consultation.
Pt alloy nanowires (NWs) were synthesized and applied as catalysts in the title reaction. The specific activity and mass activity of 2.5 nm wide FePt NWs were higher than of a commercial Pt catalyst. The stability of FePt NWs was tested by scanning the potential in an O(2) -saturated HClO(4) solution. The corresponding polarization curves before an...
A simple, solvent-free, solid-state self-assembly strategy for the synthesis of alkaline-metal-oxide-doped mesoporous carbons (MCs) with tunable mesopores (~5-9 nm), high surface-areas (up to 571 m2/g) and large pore volumes (up to 0.65 cm3/g) is developed via the mechanochemical assembly between polyphenol-Ca2+/Mg2+ composites and F127 copolymers....
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