{"newsList":[{"detailid":30235495,"title":"自突破六氟磷酸锂的技术封锁,我国电解液应用实现国产","content":"","addtime":0,"bigclass":180400,"smallclass":180422,"thirdclass":0,"newstype":25000,"newstypesub":8000,"imgurl":"","htmlpath":"http://xincailiao.ofweek.com/news/2018-05/ART-180422-8420-30235495.html","summery":"电解液是锂电池四大关键材料(正极、负极、隔膜、电解液)之一,号称锂电池的“血液”,在锂电池中正负极之间起到传导电子的作用。","metakeywords":"锂电电解液,产值将,265亿元","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"smallType":{"typeid":180422,"typename":"无机非金属材料","urlcode":180422,"nameAB":"inorganic"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2018-05-29 09:06:15","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20185/15275557783168391971433079156161.png","listpic2":"https://images.ofweek.com/Upload/NewsList/20185/15275557784876657887942650535050.png","listpic3":"https://images.ofweek.com/Upload/NewsList/20185/15275557786946044673234901876132.png","intervalStr":"2018-05-29 09:06","channelStr":"市场研究","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30235349,"title":"这一广泛使用的器件中国技术不差,差距在于产业化","content":"","addtime":0,"bigclass":180400,"smallclass":180424,"thirdclass":0,"newstype":25000,"newstypesub":8000,"imgurl":"","htmlpath":"http://xincailiao.ofweek.com/news/2018-05/ART-180424-8420-30235349.html","summery":"特朗普政府发起的贸易战虽然收场,但这几个月,人们开始寻找中国可能被卡脖子的短板,中国大量进口的IGBT也被挖了出来。有媒体就认为,由于中国IGBT需要大量进口,而这个产业又被西方国家把持,对于中国正在大力发展的高铁和新能源汽车来说是一个潜在的威胁。","metakeywords":"IGBT,绝缘栅双极型晶体管","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"smallType":{"typeid":180424,"typename":"前沿新材料","urlcode":180424,"nameAB":"qianyan"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2018-05-28 16:19:38","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20185/1527495525184346370184364042093.jpg","listpic2":"https://images.ofweek.com/Upload/NewsList/20185/15274955252734684616986663943202.jpg","listpic3":"https://images.ofweek.com/Upload/NewsList/20185/15274955254237355066514727790190.png","intervalStr":"2018-05-28 16:19","channelStr":"市场研究","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30235171,"title":"衍生自稀有元素碲的极薄二维材料,可大幅提升芯片电晶体运行","content":"","addtime":0,"bigclass":180400,"smallclass":180424,"thirdclass":0,"newstype":29000,"newstypesub":19000,"imgurl":"","htmlpath":"http://xincailiao.ofweek.com/news/2018-05/ART-180424-8220-30235171.html","summery":"美国普渡大学研究人员发现一种衍生自稀有元素碲(tellurium)的极薄二维材料,可大幅提升芯片电晶体运行效率,进而提高电子设备(如手机、电脑)处理讯息的速度,也能增强诸如红外线感测器的技术。","metakeywords":"极薄二维材料,芯片电晶体","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"smallType":{"typeid":180424,"typename":"前沿新材料","urlcode":180424,"nameAB":"qianyan"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2018-05-28 10:37:17","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20185/15274750710574526008867860680987.jpg","listpic2":"","listpic3":"","intervalStr":"2018-05-28 10:37","channelStr":"产品信息","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30234922,"title":"材料学新方向:AI正将运气和偶然发现过程提速200倍","content":"","addtime":0,"bigclass":180400,"smallclass":180424,"thirdclass":0,"newstype":25000,"newstypesub":8000,"imgurl":"","htmlpath":"http://xincailiao.ofweek.com/news/2018-05/ART-180424-8420-30234922.html","summery":"几百年来,人们一直是通过反复试验或者靠运气和偶然发现新材料。现在,科学家们正在使用人工智能来加速这一过程。","metakeywords":"AI,新材料","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"smallType":{"typeid":180424,"typename":"前沿新材料","urlcode":180424,"nameAB":"qianyan"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2018-05-26 11:16:31","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2018-05-26 11:16","channelStr":"市场研究","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30234597,"title":"碳基纳米发光材料温室长寿命发射调控与应用","content":"","addtime":0,"bigclass":180400,"smallclass":180421,"thirdclass":0,"newstype":25000,"newstypesub":8000,"imgurl":"","htmlpath":"http://xincailiao.ofweek.com/news/2018-05/ART-180421-8420-30234597.html","summery":"室温长寿命发光材料由于特有的发光过程而被广泛应用于新一代光电器件、光学防伪、化学/生物传感、时间分辨成像等领域。","metakeywords":"碳基纳米,发光材料,发射调控","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"smallType":{"typeid":180421,"typename":"高分子材料","urlcode":180421,"nameAB":"polymers"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2018-05-25 10:55:44","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20185/15272168850788158591535860190304.png","listpic2":"https://images.ofweek.com/Upload/NewsList/20185/15272168853817404725997970145834.png","listpic3":"https://images.ofweek.com/Upload/NewsList/20185/15272168856366410567162224551070.png","intervalStr":"2018-05-25 10:55","channelStr":"市场研究","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30233890,"title":"石墨烯产业在我国整体呈现蓬勃发展的势头","content":"","addtime":0,"bigclass":180400,"smallclass":180424,"thirdclass":0,"newstype":25000,"newstypesub":8000,"imgurl":"","htmlpath":"http://xincailiao.ofweek.com/news/2018-05/ART-180424-8420-30233890.html","summery":"石墨烯具有优异的光学、电学、力学特性,在材料学、微纳加工、能源、生物医学和药物传递等方面具有重要的应用前景,被认为是一种未来革命性的材料。","metakeywords":"石墨烯,新材料","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"smallType":{"typeid":180424,"typename":"前沿新材料","urlcode":180424,"nameAB":"qianyan"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2018-05-23 15:27:16","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20185/15270604695416027042294578735055.jpg","listpic2":"https://images.ofweek.com/Upload/NewsList/20185/1527060469648230233478552988470.jpg","listpic3":"https://images.ofweek.com/Upload/NewsList/20185/15270604703085979398818425118111.jpg","intervalStr":"2018-05-23 15:27","channelStr":"市场研究","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30233496,"title":"金旸,科技创新助推材料革命","content":"","addtime":0,"bigclass":180400,"smallclass":180421,"thirdclass":0,"newstype":25000,"newstypesub":74004,"imgurl":"","htmlpath":"http://xincailiao.ofweek.com/news/2018-05/ART-180421-8460-30233496.html","summery":"在誉有“东方夏威夷”之称的厦门,金旸新材料正悄然崛起。作为中国首家实体创业平台的创立者,金旸从来都不是墨守成规的人,金旸人专注于做产品、做服务,在“科技创新”的道路上,不断寻求技术突破,致力于打造高分子新材料行业生态,实现实体产业的统一和高质量发展。","metakeywords":"金旸,新材料","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"smallType":{"typeid":180421,"typename":"高分子材料","urlcode":180421,"nameAB":"polymers"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2018-05-22 15:50:27","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20185/15269757568698819782448953805546.png","listpic2":"https://images.ofweek.com/Upload/NewsList/20185/15269757571045056374873302256869.png","listpic3":"https://images.ofweek.com/Upload/NewsList/20185/15269757572333442360328763776677.png","intervalStr":"2018-05-22 15:50","channelStr":"市场研究","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30233328,"title":"新材料行业供给稀缺,国家大力振兴新材料产业","content":"","addtime":0,"bigclass":180400,"smallclass":180424,"thirdclass":0,"newstype":25000,"newstypesub":74006,"imgurl":"","htmlpath":"http://xincailiao.ofweek.com/news/2018-05/ART-180424-8480-30233328.html","summery":"与基本金属行业相反,新材料行业的供给侧是稀缺的,特别在国民经济需求的百余种关键材料中,约三分之一国内完全空白,约一半性能稳定性较差,部分产品受到国外严密控制,国内又急切需要突破受制于人的关键战略材料。","metakeywords":"新材料,中国制造2025,战略材料","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"smallType":{"typeid":180424,"typename":"前沿新材料","urlcode":180424,"nameAB":"qianyan"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2018-05-22 10:29:44","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20185/15269561704678735775640473836170.jpg","listpic2":"","listpic3":"","intervalStr":"2018-05-22 10:29","channelStr":"市场研究","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30233118,"title":"具有高强度、高韧性、高导电性的石墨烯薄膜","content":"","addtime":0,"bigclass":180400,"smallclass":180423,"thirdclass":0,"newstype":29000,"newstypesub":19000,"imgurl":"","htmlpath":"http://xincailiao.ofweek.com/news/2018-05/ART-180423-8220-30233118.html","summery":"碳纤维增强高聚物复合材料(CFRPC)正广泛应用于汽车、航空、电子、能源和生物医药技术领域。然而,碳纤维复合材料存在很多缺点,而这些缺点无论从技术角度还是从经济的角度来看,都会限制其更广泛的应用。","metakeywords":"石墨烯薄膜,复合材料,碳纤维","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"smallType":{"typeid":180423,"typename":"复合材料","urlcode":180423,"nameAB":"composite"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2018-05-21 16:47:42","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20185/15268924751541744668444419662194.jpg","listpic2":"https://images.ofweek.com/Upload/NewsList/20185/15268924762114532956462354124378.jpg","listpic3":"https://images.ofweek.com/Upload/NewsList/20185/15268924777103261625410626993449.jpg","intervalStr":"2018-05-21 16:47","channelStr":"产品信息","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30233025,"title":"新型钛基复合材料,热处理后的拉伸与断裂韧性性能","content":"","addtime":0,"bigclass":180400,"smallclass":180423,"thirdclass":0,"newstype":29000,"newstypesub":19000,"imgurl":"","htmlpath":"http://xincailiao.ofweek.com/news/2018-05/ART-180423-8220-30233025.html","summery":"钛及钛合金具有各种优良性能(密度小,比强度高,耐腐蚀,耐高、低温性能好,无磁,无毒),成为航空航天应用的优秀材料,有着“飞行金属”的美称。","metakeywords":"钛基,复合材料,钛合金","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"smallType":{"typeid":180423,"typename":"复合材料","urlcode":180423,"nameAB":"composite"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2018-05-21 11:59:18","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20185/15268836529386172991493462436076.jpg","listpic2":"https://images.ofweek.com/Upload/NewsList/20185/15268837587455001917974412254494.png","listpic3":"https://images.ofweek.com/Upload/NewsList/20185/15268836534268302450141481210776.jpg","intervalStr":"2018-05-21 11:59","channelStr":"产品信息","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30233017,"title":"用于可持续3D打印的可再处理热固性光敏材料","content":"","addtime":0,"bigclass":180400,"smallclass":180424,"thirdclass":0,"newstype":29000,"newstypesub":19000,"imgurl":"","htmlpath":"http://xincailiao.ofweek.com/news/2018-05/ART-180424-8220-30233017.html","summery":"3D打印作为一种功能强大的快速成型技术,具备制备复杂三维几何形状的能力。该技术现已广泛应用于包括组织工程、软体机器人、纳米器件、光学工程、超材料等领域。","metakeywords":"3D打印,光敏材料,三维结构","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"smallType":{"typeid":180424,"typename":"前沿新材料","urlcode":180424,"nameAB":"qianyan"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2018-05-21 11:47:10","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20185/15268744502573613409634031313689.png","listpic2":"https://images.ofweek.com/Upload/NewsList/20185/15268744505698088396684266658088.png","listpic3":"https://images.ofweek.com/Upload/NewsList/20185/15268744508446799289799228524694.png","intervalStr":"2018-05-21 11:47","channelStr":"产品信息","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30232710,"title":"纳米材料前沿研究成果:柔性物理或化学传感器","content":"","addtime":0,"bigclass":180400,"smallclass":180424,"thirdclass":0,"newstype":25000,"newstypesub":8000,"imgurl":"","htmlpath":"http://xincailiao.ofweek.com/news/2018-05/ART-180424-8420-30232710.html","summery":"随着社会经济的飞速发展,诸多领域对所使用的材料提出了越来越高的要求, 考虑到大多数可穿戴系统,医疗保健电子和实验室芯片测试工具都可以接触到任意弯曲的接口,传感器的灵活性对于改善其与目标系统的相互作用以及提高可靠性和稳定性至关重要的测试。","metakeywords":"纳米材料,传感器,皮肤电子器件","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"smallType":{"typeid":180424,"typename":"前沿新材料","urlcode":180424,"nameAB":"qianyan"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2018-05-19 11:32:23","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20185/15267007142117581142699439531376.png","listpic2":"https://images.ofweek.com/Upload/NewsList/20185/15267007144435352250445477360884.jpg","listpic3":"https://images.ofweek.com/Upload/NewsList/20185/15267007147653762402873002138781.jpg","intervalStr":"2018-05-19 11:32","channelStr":"市场研究","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30232507,"title":"世界最硬钢:纳米金刚石和金属结合 有望量产化","content":"","addtime":0,"bigclass":180400,"smallclass":180423,"thirdclass":0,"newstype":25000,"newstypesub":8000,"imgurl":"","htmlpath":"http://xincailiao.ofweek.com/news/2018-05/ART-180423-8420-30232507.html","summery":"还有一周,第二届中国科交会就要开幕。回顾首届科交会,当时签约的将近700个成果转化项目进展如何?近日,南方日报探访了“纳米金刚石颗粒增强钢铁基复合材料产业化”项目,它的首批意向投资金额5亿元,是首届科交会成果转化签约额度最高的项目。","metakeywords":"最硬钢,纳米,复合材料","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"smallType":{"typeid":180423,"typename":"复合材料","urlcode":180423,"nameAB":"composite"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2018-05-18 14:45:36","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2018-05-18 14:45","channelStr":"市场研究","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30232172,"title":"2018Q1碳酸锂进口超9000吨 全年锂盐供需紧平衡","content":"","addtime":0,"bigclass":180400,"smallclass":180422,"thirdclass":0,"newstype":25000,"newstypesub":8000,"imgurl":"","htmlpath":"http://xincailiao.ofweek.com/news/2018-05/ART-180422-8420-30232172.html","summery":"目前,我国碳酸锂供应仍以进口为主,从2018年一季度锂盐进出口情况来看,我国碳酸锂进口量达到9005吨,碳酸锂出口量约827吨,但氢氧化锂产品应主要应用于高镍三元电池材料或镍钴铝电池材料,而国内高镍三元技术距离大规模量产仍有较大差距。","metakeywords":"碳酸锂进口,超9000吨,锂盐","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"smallType":{"typeid":180422,"typename":"无机非金属材料","urlcode":180422,"nameAB":"inorganic"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2018-05-17 17:08:41","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20185/15265480067161843821005032847531.png","listpic2":"https://images.ofweek.com/Upload/NewsList/20185/15265480069425450989247073258191.png","listpic3":"https://images.ofweek.com/Upload/NewsList/20185/1526548007210960845459689307026.jpg","intervalStr":"2018-05-17 17:08","channelStr":"市场研究","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30231999,"title":"多模式硬X射线显微成像在材料科学研究中的应用","content":"","addtime":0,"bigclass":180400,"smallclass":180421,"thirdclass":0,"newstype":41000,"newstypesub":42000,"imgurl":"","htmlpath":"http://xincailiao.ofweek.com/news/2018-05/ART-180421-8110-30231999.html","summery":"硬X射线因其良好的穿透性,对元素,化学价态和晶体结构的高敏感性,广泛用于材料物理化学特性的表征和测量。","metakeywords":"硬X射线,材料科学,纳米","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"smallType":{"typeid":180421,"typename":"高分子材料","urlcode":180421,"nameAB":"polymers"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2018-05-17 10:57:53","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20185/15265258651999097322429801657649.jpg","listpic2":"https://images.ofweek.com/Upload/NewsList/20185/15265258653972548945260217330411.jpg","listpic3":"https://images.ofweek.com/Upload/NewsList/20185/15265258655572634309146554197608.jpg","intervalStr":"2018-05-17 10:57","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30231740,"title":"晶瑞股份称同意投资3.87亿建设光电显示、半导体用新材料项目","content":"","addtime":0,"bigclass":180400,"smallclass":180424,"thirdclass":0,"newstype":41000,"newstypesub":42000,"imgurl":"","htmlpath":"http://xincailiao.ofweek.com/news/2018-05/ART-180424-8110-30231740.html","summery":"5月15日,晶瑞股份发布公告称,公司同意全资子公司眉山晶瑞投资建设年产8.7万吨光电显示、半导体用新材料项目,该项目总投资3.87亿元。","metakeywords":"晶瑞股份,半导体,电子化学品","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"smallType":{"typeid":180424,"typename":"前沿新材料","urlcode":180424,"nameAB":"qianyan"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2018-05-16 15:50:15","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20185/15264570463013284865811637827654.png","listpic2":"","listpic3":"","intervalStr":"2018-05-16 15:50","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30231733,"title":"璞泰来拟在内蒙古设立锂离子电池负极材料子公司","content":"","addtime":0,"bigclass":180400,"smallclass":180423,"thirdclass":0,"newstype":41000,"newstypesub":74002,"imgurl":"","htmlpath":"http://xincailiao.ofweek.com/news/2018-05/ART-180423-8120-30231733.html","summery":"5月15日晚间,璞泰来发布公告称,公司拟注册资本人民币2亿元,在内蒙古卓资县设立全资子公司内蒙古紫宸科技有限公司,经营范围为锂离子电池负极材料、新型石墨(碳复合负极材料、硅负极、硅碳石墨体系的复合材料)的技术开发、生产和销售、实业投资、投资项目管理等。","metakeywords":"新型石墨,锂离子电池,负极材料","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"smallType":{"typeid":180423,"typename":"复合材料","urlcode":180423,"nameAB":"composite"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2018-05-16 15:41:35","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20185/15264564920732332250575322038958.jpg","listpic2":"","listpic3":"","intervalStr":"2018-05-16 15:41","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30231727,"title":"国货当自强:首款国产柔性PI基板材料的高分辨率AMOLED","content":"","addtime":0,"bigclass":180400,"smallclass":180424,"thirdclass":0,"newstype":41000,"newstypesub":42000,"imgurl":"","htmlpath":"http://xincailiao.ofweek.com/news/2018-05/ART-180424-8110-30231727.html","summery":"2018年5月5日,科技部高技术研究发展中心在武汉组织了国家863计划新材料技术领域“柔性基板材料及柔性显示关键技术研究开发”课题验收。","metakeywords":"PI基板材料,863计划,AMOLED","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"smallType":{"typeid":180424,"typename":"前沿新材料","urlcode":180424,"nameAB":"qianyan"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2018-05-16 15:33:38","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2018-05-16 15:33","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30231723,"title":"科技部:863技术新材料技术领域三大重点项目通过验收","content":"","addtime":0,"bigclass":180400,"smallclass":180424,"thirdclass":0,"newstype":41000,"newstypesub":74002,"imgurl":"","htmlpath":"http://xincailiao.ofweek.com/news/2018-05/ART-180424-8120-30231723.html","summery":"技术是产业发展的助推器,也是整个科技领域发展的源泉。在国家科技创新规划引导下,我国正加快政策和资金支持,推动技术创新。新材料作为目前正在研发的、性能超群的一些材料,具有比传统材料更为优异的性能,行业前景被业内人士所看好。在加快推动新材料产业发展的过程中,技术创新发挥着至关重要的作用。","metakeywords":"863,科技部,新材料技术","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"smallType":{"typeid":180424,"typename":"前沿新材料","urlcode":180424,"nameAB":"qianyan"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2018-05-16 15:25:22","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20185/15264555525702520440363431732977.png","listpic2":"","listpic3":"","intervalStr":"2018-05-16 15:25","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30231616,"title":"电磁辐射屏蔽新材料:高韧MXene/纳米纤维素复合电磁屏蔽纸","content":"","addtime":0,"bigclass":180400,"smallclass":180423,"thirdclass":0,"newstype":29000,"newstypesub":19000,"imgurl":"","htmlpath":"http://xincailiao.ofweek.com/news/2018-05/ART-180423-8220-30231616.html","summery":"近年来,随着经济的发展,无线通信和电子设备的使用已经越来越普遍。然而,电子仪器产生的电磁辐射不仅影响其本身的正常功能和寿命,而且对人体健康具有潜在的危害。","metakeywords":"电磁辐射,可穿戴电子,电磁屏蔽","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"smallType":{"typeid":180423,"typename":"复合材料","urlcode":180423,"nameAB":"composite"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2018-05-16 11:05:35","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20185/15264399626845446531140160721578.jpg","listpic2":"https://images.ofweek.com/Upload/NewsList/20185/15264399628567555728181324330927.jpg","listpic3":"https://images.ofweek.com/Upload/NewsList/20185/15264399630545159434115694933072.jpg","intervalStr":"2018-05-16 11:05","channelStr":"产品信息","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0}]}