王达健,1963年7月,天津理工大学材料科学与工程学院博导,硕导,教授
研究方向
0805材料科学与工程(02低维材料可控制备及性能调控) 光合作用光源材料、光电能源材料与技术
人才称号
天津市优秀教师 ;
学术兼职
中国稀土学会发光专委会委员、中国电工技术学会半导体光源系统专委会委员
讲授课程
材料科学基础、固体材料化学、半导体照明材料与器件
主要科研项目及代表性成果(包括鉴定项目、论文、专著、获奖、专利等):
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1. 项目
1)硅纳米能源材料化学,天津市“外专千人计划”(Prof. Bradley Dean Fahlman, 美国中央密西根大学,合作),天津市,2016-2018
2)微波能先进材料特别是纳米碳基材料制造技术,天津市“外专千人计划”(Prof. Dinesh Kumar Agrawal, 美国宾州州立大学,合作),天津市,2017-2019
3) LED生态转光玻璃材料及智能化植物工厂产业化,盛德技术玻璃公司横向项目,2012-2013,主持;
4) 具有荧光增效的笼状荧光微球的微波加热诱导结构演化机理,国家自然科学基金委, 21076161,2011-2013,主持
5) 硅基氮氧化物荧光玻璃中纳米晶的形核生长及光散射研究,国家自然科学基金委,50872091,2009-2011,主持
6) 纳米核壳金近红外光热(PT)技术,天津外专局-德国卡尔斯鲁厄研究中心,S20081200001,2008,主持
7) 功率型白光LED用高性能稀土氮化物荧光材料,天津市高等学校科技发展基金重点项目, 2006ZD30,2006-09,主持
8) 用于白光LED的ZnO纳米阵列紫外光源及单基质紫外荧光材料,天津市自然科学基金重点项目,06TXTJJC14602,2006-09,主持
9) 球形纳米全色荧光体的微结构和光谱调控研究,天津市自然科学基金,06YFJMJC02300,2006-09,主持
10) 全色荧光材料的微结构及光谱调控技术,国家外专局-加拿大不列颠哥伦比亚大学,20061200068,2004-06,主持
11) 薄水铝石胶体/陶瓷颗粒体系微结构与相变研究,国家自然科学基金委,50364002,2004-06,主持
12)微波等离子化学气相合成核壳结构纳米复合材料,德国教育科技部-卡尔斯鲁厄研究中心国际项目,BMBF CN 2001-1/360,2001-04,第2
13)纳米复合氧化物电化学合成,教育部留学回国人员科研启动基金,教外司留2000-479,主持
14)粉末冶金铝/玻璃复合材料,国家计委”十五”科技攻关子课题,1998-2000,主持
15)粗糙固体表面貌相与宏观化学反应动力学的关系,国家自然科学基金,50074019,2001-2003, 第2.
2.代表论文
[1]Novel g-C3N4/CoO Nanocomposites with Significantly Enhanced Visible-Light Photocatalytic Activity for H2 Evolution,Acs Applied Materials & Interfaces 9(14)(2017)12427-12435
[2]Ultrathin g-C3N4 nanosheets with an extended visible-light-responsive range for significant enhancement of photocatalysis, Rsc Advances 7(4)(2017)2333-2341
[3]Damage-Free Removal of Residual Carbon in a Dielectric Barrier Discharge (DBD) Plasma for Carbothermal-Synthesized Materials,Chemistry of Materials 28(15)(2017)5560-5566
[4]Synthesis of CaAlSiN3: Eu2+ nitride phosphors from entire oxides raw materials and their photoluminescent properties, Journal of Materials Science-Materials in Electronics 28(1): 715-720.
[5] Dual-responsive Sr2SiO4:Eu2+-Ba3MgSi2O8:Eu2+, Mn2+ composite phosphor to human eyes and plant chlorophylls applications for general lighting and plant lighting, Chemical Engineering Journal 284   (2016) 1003-1007.
[6] Red/blue-shift dual-directional regulation of alpha (L)-(Ca, Sr)2SiO4:Eu2+ phosphors resulting from the incorporation content of Eu2+/Sr2+ ions, Dalton Transactions 44 (35) (2015) 15620-15627.
[7] Control of green emitting intermediate phases in (Ba, Sr) 3MgSi2O8:Eu2+, Mn2+ phosphors for dual-bands or tri-bands emission, Materials Research Bulletin 70   (2015) 908-913.
[8] Tunable luminescent Eu2+-doped dicalcium silicate polymorphs regulated by crystal engineering, Journal of Materials Chemistry C 3 (36) (2015) 9454-9460.
[9] Atmospheric pressure preparation of red-emitting CaAlSiN3:Eu2+ phosphors with variable fluxes and their photoluminescence properties, Ceramics International 42 (1) (2016) 1756-1761.
[10] Synchronous red and blue emitting Ca3(PO4)2:Eu2+, Mn2+ phosphors applicable for plant-lighting, Materials Research Bulletin 67 (2015) 1-4.
[11] Rare-Earth Free Phosphors with Ultra-Broad Band Emission Application for High Color Rendering Index Lighting Source, Journal of the American Ceramic Society 98 (12) (2015) 3856-3862.
[12] nhancement of photosynthetic action spectrum for 660 nm-featured phase-pure (Ba,Sr) 3MgSi2O8:Eu2+, Mn2+ phosphor by spray-combustion synthesis, J. Mater. Sci.-Mater. Electron. 26 (4) (2015) 2647-2653.
[13] Single-phased silicate-hosted phosphor with 660 nm-featured band emission for biological light-emitting diodes, Current Applied Physics 13 (7) (2013) 1506-1511.
[14] Microwave-induced small size effect of (Ba, Sr)3MgSi2O8:Eu2+, Mn2+ phosphor for 660 nm-featured bio-lighting, Ceramics International 39 (7) (2013) 7717-7720.
[15] Tunable white-light emission of SiAlON-base crystal/glass composite phosphor by variation of excitation wavelength, Ceramics International 39 (8) (2013) 9809-9813.
[16] Microwave-induced small size effect of (Ba, Sr) 3MgSi2O8:Eu2+, Mn2+ phosphor for 660 nm-featured bio-lighting, Ceramics International 39 (7) (2013) 7717-7720.
[17] Intensification of the Photosynthetic Action Spectrum of Ba3MgSi2O8:Eu2+, Mn2+ Phosphor with Metal-Enhanced Fluorescence, Electrochemical and Solid State Letters 15 (2) P1/4/ (2012) P1-P4.
[18] Cage-Like Phosphor Spheres of Eu2+ and Mn2+ Codoped Ba3MgSi2O8: Emission Enhancement for Artificial Photosynthetic Spectrum, ECS Solid State Lett. 1 (5) (2012) R24-R26
[19] Intensification of the Photosynthetic Action Spectrum of Ba3MgSi2O8:Eu2+, Mn2+ Phosphor with Metal-Enhanced Fluorescence, Electrochemical and Solid State Letters 15 (2) (2012) P1-P4.
[20] Investigation of 515 nm green-light emission for full color emission LaAlO3 phosphor with varied valence Eu, Journal of Luminescence 131 (5) (2011) 1048-1051.
[21] Color improvement of white-light through Mn-enhancing yellow-green emission of SrSi2O2N2:Eu phosphor for white light emitting diodes, Journal of Luminescence 131 (5) (2011) 960-964.
[22] Tunable single-doped single-host full-color-emitting LaAlO3: Eu phosphor via valence state-controlled means, Chem. Commun., (2009) 346-348. 
[23] Investigation of Eu-Mn energy transfer in A3MgSi2O8:Eu2+, Mn2+ (A=Ca, Sr, Ba) for light-emitting diodes for plant cultivation, Applied Physics Letters, 93 (2008).
3.专著(章)
1)Phosphors with a 660-nm-Featured Emission for LED/LD Lighting in Horticulture,In: Phosphors, up conversion nano particles, quantum dots nd their applications, ed. Ru-Shi Liu, Springer,Singapore, p.83-117, 2016, ISBN: 978-981-10-1589-2 (Print) 978-981-10-1590-8 (Online)
2)   One-dimensional nanostructure materials of gold: optical properties, syntheses, assemblies and potential applications, In: Progress in Nanoparticles Research: Optical Properties, Syntheses, Assemblies and Potential Applications,Nova Publishers,ISBN: 978-1-60456-705-2,2008
4.获奖
1) 生态植物平面光源的研究及产业化,科学技术进步奖,河北省人民政府,2016
2)河北省科技英才“双百双千”推进工程-科技型中小企业创新英才,河北省科技厅,2016
3) 天津市优秀教师,天津市人民政府,2009
4)全色荧光材料的微结构及光谱调控技术, 天津市高等院校引智"十佳项目",2007
5.专利
1)一种氮化物荧光粉的低温等离子体制备方法,ZL201410609583.8
2)一种高效率激光照明用远程荧光涂层及其应用,ZL201410609545.2
3)一种植物激光照明用荧光微晶玻璃及其制备方法,ZL201410609858.8
4)一种红蓝光功率可调的合光激光植物光源,ZL201310550439.7
5)一种红蓝合光激光平板光源的制备方法,ZL201310550568.6
6)一种用于制备荧光粉的高温微波装置,ZL201310699694.8
7)一种稀土激活的白光荧光玻璃材料及其制备方法和应用,ZL201010564216.2
8)一种用于LED的光转换玻璃材料的制备方法及应用,ZL201010564150.7
9)一种显色性大于90的暖白光混合荧光材料及其制备方法,ZL201110407556.9
10)稀土荧光体材料的微波烧成方法,ZL200610130334.6
11)用等离子体提高LED荧光体光合作用光谱强度的方法,ZL201110283357.1
12)蓝紫光激发的660纳米红光荧光材料及高温微波制备法,ZL201110340794.2
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