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厦门大学 材料学院, 福建 厦门 361005
[ "解荣军(1969-),男,江苏镇江人,博士,厦门大学教授。1998年于中国科学院上海硅酸盐研究所获得博士学位。2011年入选浙江省特聘专家,2013年入选中组部国家特聘专家,2016年入选福建省海外高层次人才和福建省高校领军人才。具有近20年国外研究经历,曾作为STA学者在日本国立材料研究所(1998.9—2000.9)和洪堡学者在达姆斯塔特工业大学(2002.3—2003.3)从事研究,历任日本国立材料研究所主任研究员、首席研究员和主席研究员(2003.4—2017.12)。担任美国陶瓷学会杂志Journal of the American Ceramic Society主编、Journal of Luminescence副主编、美国电气化学学会发光材料分会副主席等职。发表学术论文近300篇,引用超过1.2万次,获得中国、美国、日本、韩国和欧洲发明专利超过40件,多件专利已授权日本和韩国企业生产。是国际上从事稀土掺杂氮化物荧光粉的先驱者之一,荣获2012年日本文部科学大臣表彰的科学技术奖、2007年日本筑波奖励奖、2005年和2008年日本荧光粉奖、2011年日本电气化学学会技术奖、2018年中国产学研合作创新成果奖优秀奖和2019年日本陶瓷协会学术奖。E-mail: rjxie@xmu.edu.cn" ]
[ "李淑星(1990-),女,河南平顶山人,博士,厦门大学讲师。2017年于中国科学院上海硅酸盐研究所获得博士学位,期间在日本国立材料研究所交流学习, 曾获博新计划资助。担任《发光学报》青年编委。目前已在Chem. Mater., Laser Photonics Rev., ACS Appl. Mater. Interfaces, J. Mater. Chem. C等期刊发表第一作者或通讯作者论文20余篇。主要从事新型氮化物发光材料的设计制备与性能研究、大功率激光照明与显示用荧光转换材料的设计制备与产业化应用。E-mail: lishuxing@xmu.edu.cn" ]
纸质出版日期:2020-6,
收稿日期:2020-5-6,
录用日期:2020-5-18
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解荣军, 李淑星. 氮化物荧光粉的前世今生:材料探索和应用的新启示[J]. 发光学报, 2020,41(6):646-650.
Rong-jun XIE, Shu-xing LI. Past and Present of Nitride Phosphors: New Inspirations on Materials Discovery and Applications[J]. Chinese Journal of Luminescence, 2020,41(6):646-650.
解荣军, 李淑星. 氮化物荧光粉的前世今生:材料探索和应用的新启示[J]. 发光学报, 2020,41(6):646-650. DOI: 10.3788/fgxb20204106.0646.
Rong-jun XIE, Shu-xing LI. Past and Present of Nitride Phosphors: New Inspirations on Materials Discovery and Applications[J]. Chinese Journal of Luminescence, 2020,41(6):646-650. DOI: 10.3788/fgxb20204106.0646.
氮化物荧光粉脱胎于氮化物结构陶瓷,凭借其结构的丰富性和配位环境的特异性华丽转身,成为具有优异发光性能和超高稳定性的重要光转换材料,并为半导体照明与显示技术的发展建功立业。本文首先回顾了经典氮化物荧光粉的发展历程,继而思考了它带来的启示,即新材料的研究开发需摒弃传统思维模式,立足于产业需求,强化产学研合作。
Nitride phosphors are born out of structural ceramics
and have beautifully turned into important down-conversion luminescent materials owing to their diversity in structure and specificity in local coordination. They are contributing significantly to advances in semiconductor lighting and display technologies. This article first briefly overviews the discovery of some classic nitride phosphors
and then highlights the inspiration it brings. That is to say
the traditional mode of thinking must be abandoned when conducting the research and development of new materials
but the R & D must rely on industrial needs and be strengthened by tight cooperation between industry and research units.
稀土发光材料氮化物荧光粉固态照明
luminescent materialsnitride phosphorssolid state lighting
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