全球科技经济瞭望
全毬科技經濟瞭望
전구과기경제료망
QUANQIU KEJI JINGJI LIAOWANG
2014年
5期
45-51
,共7页
张芳%史冬梅%暴宁钟%任文才
張芳%史鼕梅%暴寧鐘%任文纔
장방%사동매%폭저종%임문재
石墨烯%碳基材料%二维结构%电学性能
石墨烯%碳基材料%二維結構%電學性能
석묵희%탄기재료%이유결구%전학성능
graphene%C-based material%2D graphite%electrical properties
石墨烯(graphene)是一种新型的碳基材料,具有极好的结晶性及电学性能,在能源、半导体、生物医学等多个领域具有良好的应用前景,已成为发达国家必争的战略制高点。美国在全球率先将石墨烯研究上升为国家发展战略,欧盟投入巨资资助开发石墨烯在能源和数字技术等领域的应用,英国拟投资6100万英镑建立国家石墨烯研究所,日本、韩国也持续开展了一系列与石墨烯相关的研究和应用。我国对石墨烯材料的基础研究处于国际领先地位,但在器件制造和应用方面仍很欠缺。我国应加强石墨烯规模化制备技术和改性技术的研究,加强石墨烯的应用研究,并在石墨烯研究方面加强产学研联合研究和国际合作。
石墨烯(graphene)是一種新型的碳基材料,具有極好的結晶性及電學性能,在能源、半導體、生物醫學等多箇領域具有良好的應用前景,已成為髮達國傢必爭的戰略製高點。美國在全毬率先將石墨烯研究上升為國傢髮展戰略,歐盟投入巨資資助開髮石墨烯在能源和數字技術等領域的應用,英國擬投資6100萬英鎊建立國傢石墨烯研究所,日本、韓國也持續開展瞭一繫列與石墨烯相關的研究和應用。我國對石墨烯材料的基礎研究處于國際領先地位,但在器件製造和應用方麵仍很欠缺。我國應加彊石墨烯規模化製備技術和改性技術的研究,加彊石墨烯的應用研究,併在石墨烯研究方麵加彊產學研聯閤研究和國際閤作。
석묵희(graphene)시일충신형적탄기재료,구유겁호적결정성급전학성능,재능원、반도체、생물의학등다개영역구유량호적응용전경,이성위발체국가필쟁적전략제고점。미국재전구솔선장석묵희연구상승위국가발전전략,구맹투입거자자조개발석묵희재능원화수자기술등영역적응용,영국의투자6100만영방건입국가석묵희연구소,일본、한국야지속개전료일계렬여석묵희상관적연구화응용。아국대석묵희재료적기출연구처우국제령선지위,단재기건제조화응용방면잉흔흠결。아국응가강석묵희규모화제비기술화개성기술적연구,가강석묵희적응용연구,병재석묵희연구방면가강산학연연합연구화국제합작。
Graphene is a new C-based material and has a 2D cellular crystal lattice structure closely packed by single layered C atoms. The graphene has excellent crystallinity and electrical properties, and has a good application prospect in several areas like energy, semiconductor, and biomedicine science. The United States is the ifrst to turn the graphene research into a national strategy; the European Union has invested heavily in graphene research and its application in the ifeld of energy and digital technology; the UK will input 61 million pounds to set up the graphene research institute; Japan and South Korea have carried out many studies related to grapheme application. China has taken the lead in basic research of graphene, however, it fall behind the developed countries in graphene-based device and its application. In this article, analysis is made to the technologies and industrial development of graphene in China and other countries, and some suggestions for development of graphene in China are proposed.
