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ç ”ç©¶æ–¹å‘之一:氮化物ã€æ°§æ°®åŒ–物纳米粉体åŠå¤åˆææ–™
[1] 新型氮化物ã€æ°§æ°®åŒ–物纳米粉体的åˆæˆ [2] 陶瓷åŸ?èšåˆç‰©åŸºçº³ç±³æ°®åŒ–物å¤åˆææ–™ç ”ç©µübr /> [3] 高性能氮化物陶瓷纤维ææ–™ç ”ç©µübr /> [4] 氮掺æ‚æ•åŒ–纳米催化ææ–™ç ”ç©µübr /> ç ”ç©¶æ–¹å‘之二:碳纳米管的功能组装åŠå…¶å¤åˆææ–™ç ”ç©¶ [1] 碳纳米管的功能组裄übr /> [2] 陶瓷åŸ?èšåˆç‰©ç¢³çº³ç±³ç®¡å¤åˆææ–™ç ”ç©µübr /> [3] å¾®å应器åˆæˆåŠŸèƒ½æ€§çº³ç±³ææ–˜ü/div> |
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个人简厅ú
1983.9-1987.7 西北轻工业å¦é™¢æœ¬ç§‘,硅酸ç›å·¥ç¨‹ä¸“业,工å¦å¦å£«ï¼ 1987.7-1991.12 山西çœçŽ»ç’ƒé™¶ç“·ç§‘å¦ç ”究所工作:übr /> 1991.12-2000.9 太原ç†å·¥å¤§å¦æ料科å¦ä¸Žå·¥ç¨‹å¦é™¢æ— 机éžé‡‘属ææ–™æ•™ç ”å®¤ä¸»ä»»ã€å‰¯æ•™æŽˆ ï¼?994.9-1997.5 太原ç†å·¥å¤§å¦åœ¨èŒç¡•å£«ï¼ŒåŒ–工专业,工å¦ç¡•å£«ï¼‰ï¼› 2000.9-2003.6 ä¸å›½ç§‘å¦é™¢ä¸Šæµ·ç¡…é…¸ç›ç ”究所åšå£«ç”Ÿï¼Œæ料科å¦ä¸Žå·¥ç¨‹ä¸“业,工å¦åšå£«ï¼šübr /> 2003.7-至今 东åŽå¤§å¦æ料科å¦ä¸Žå·¥ç¨‹å¦é™¢ã€übr /> 主讲课程9übr /> “纳米æ料表å¾â€ã€â€œçŽ°ä»£é™¶ç“·ç§‘å¦ä¸Žå·¥ç¨‹â€?é—¨ç ”ç©¶ç”Ÿè¯¾ç¨‹ï¼šübr /> "æ— æœºçº³ç±³ææ–™"本科生课稊übr /> å·²å–得的主è¦ç ”究æˆæžœï¼™übr /> 已在本领域国内外æ‚å¿—å’Œå¦æœ¯ä¼šè®®ä¸Šå‘表论文40篇,包括在国际一æµçš„å¦æœ¯åˆŠç‰©ï¼Œå¦‚Journal of the American Ceramic Societyã€übr /> å›½å†…å¦‚ã€Šæ— æœºææ–™å¦æŠ¥ã€‹ç‰ã€‚申请ä¸å›½å‘明专åˆ?9项,其ä¸å·²èŽ·æŽˆæƒä¸“利10项ã€übr /> 主è¦è®ºæ–‡ï¼™übr /> 近两年å‘è¡¨æ–‡ç« ï¼š 2011 [1] Zhifu Liu, Qinghong Zhang, Hongzhi Wang, Yaogang Li, Structural colored fiber fabricated by a facile colloid self-assembly method in micro-space. Chem. Commun. 2011, 47, 12801-12803 [2] Chengyi Hou, Qinghong Zhang, Hongzhi Wang, Yaogang Li, Functionalization of PNIPAAm microgels magnetic graphene and their application in microreactors as switch materials. Journal of Materials Chemistry, 2011, doi: 10.1039/C1jm11086aj [3] Zhongyuan He, Qinghong Zhang, Yaogang Li, Hongzhi Wang, Continuous high-throughput phosphopeptide enrichment using microfluidic channels modified with aligned ZnO/TiO2 nanorod arrays, Biomedical Microdevices, 2011, 13(5): 865-75 [4] Qinghui Mu, Yaogang Li, Qinghong Zhang, Hongzhi Wang,TiO2 nanofibers ?xed in a micro?uidic device for rapid determination of chemical oxygen demand via photoelectrocatalysis, Sensor Actuat. B: Chem., 2011, 155: 804-809 [5] Qinghong Zhang, Shuang Li, Yaogang Li and Hongzhi Wang, Preparation of Nanorod-like Anatase TiO2 Nanocrystals and their Photovoltaic Properties, Journal of Nanoscience and Nanotechnology, 2011, 11, in press. [6] Fuzhi Shi, Yaogang Li, Qinghong Zhang and Hongzhi Wang, Preparation of Core/Shell Structured Rutile/Anatase Photocatalyst via Vapor Phase Hydrolysis and Their Photocatalytic Degradation of Phenol and Methylene blue, J. Am. Ceram. Soc., revised. [7] Difeng Qian, Yaogang Li, Qinghong Zhang, Guoying Shi, Hongzhi Wang, Anatase TiO2 Sols Derived from Peroxotitanium Acid and to Form Transparent TiO2 Compact Film for Dye-Sensitized Solar Cells, J. Alloy Compound, revised. [8] Chengyi Hou, Qinghong Zhang, Meifang Zhu, Yaogang Li, Hongzhi Wang, One-step synthesis of magnetically-functionalized reduced graphite sheets and their use in hydrogels, Carbon, 2011, 49: 47-53 [9] Pengtao Shao,Qinghong Zhang, Yaogang Li, Hongzhi Wang, Aqueous synthesis of color-tunable and stable Mn2+-doped ZnSe quantum dots, Journal of Material Chemistry, 2011, 21: 151-156 [10] Zhongyuan He, Qinghong Zhang, Yaogang Li, Hongzhi Wang, Molar ratio of In to urea directed formation of In2O3 hierarchical structures: cubes and nanorod-flowers. Crystengcomm, 2011, 13: 2557-2565 [11] Cheng Bi,Meifang Zhu, Qinghong Zhang, Hao Yu, Yaogang Li, Hongzhi Wang, Synthesis and electromagnetic wave absorption properties of multi-walled carbon nanotubes decorated by BaTiO3 nanoparticles, Journal of Nanoscience and Nanotechnology, 2011, 11: 1030-1036 [12] Hua Wang, Meifang Zhu, Yaogang Li, Qinghong Zhang, Hongzhi Wang, Mechanical properties of dental resin composites by co-?lling diatomite and nanosized silica particles, Materials Science and Engineering C,2011, 31: 600-605 [13] Qinghui Mu, Yaogang Li, Qinghong Zhang, Hongzhi Wang, Template-free formation of vertically oriented TiO2 nanorods with uniform distribution for organics-sensing application, J. Hazard. Mater., 2011, 188: 363-368 [14] Zhifu Liu, Qinghong Zhang, Liyun Chen, Yaogang Li, Hongzhi Wang, Preparation and properties of the Zn1-xCoxO magnetic microspheres, Materials Science Froum, 2011, 663-665: 1081-1084 [15] Bingjie Zhu, Xinwei Wang, Meifang Zhu, Qinghong Zhang, Yaogang Li , Hongzhi Wang, Synthesis and characterization of the PANI/ITO conducting nanocomposites, Materials Science Froum, 2011, 663-665: 542-545 [16] Zhifu Liu, Qinghong Zhang, Guoying Shi, Yaogang Li, Hongzhi Wang, Solvothermal synthesis and magneto-optical properties of Zn1-xNixO hierarchical microspheres, Journal of Magnetism and Magnetic Materials, 2011, 323: 1022-1026 [17] Cheng Bi, Meifang Zhu, Qinghong Zhang, Yaogang Li, Hongzhi Wang, Electromagnetic wave absorption properties of multi-walled carbon nanotubes decorated with La-doped BaTiO3 nanocrystals synthesized by a solvothermal method, Materials Chemistry and Physics, 2011, 126: 596-601 [18] Yunxin Gu, Qinghong Zhang, Yaogang Li, Hongzhi Wang, Simultaneous tuning for excitation and emission of N doped Sr2SiO4:Eu for white light LEDs, Journal of Alloys and Compounds, 2011, 509: L109-L112 [19] Ying Chen, Xinwei Wang, Qinghong Zhang, Yaogang Li, Hongzhi Wang, Synthesis and characterization of MWCNTs/Co1-xZnxFe2O4 magnetic nanocomposites and their use in hydrogels, Journal of Alloys and Compounds, 2011, 509: 4053-4059 2010 [20] Xiaoxu Zhu, Qinghong Zhang, Yaogang Li and Hongzhi Wang, Facile crystallization control of LaF3/LaPO4:Ce, Tb nanocrystals in a microfluidic reactor using microwave irradiation. Journal of Materials Chemistry, 2010, 20 (9), 1766-1771 [21] Yunxin Gu, Qinghong Zhang, Yaogang Li and Hongzhi Wang, Nitridation from core-shell oxides for tunable luminescence of BaSi2O2N2 : Eu2+ LED phosphors, Journal of Materials Chemistry, 2010, DOI:10.1039/c0jm00118 [22] Liping Zhu, Yaogang Li, Qinghong Zhang, Hongzhi Wang, Meifang Zhu, Fabrication of monodisperse, large-sized, functional biopolymeric microspheres using a low-cost and facile microfluidic device. Biomedical Microdevices, 2010, 12 (1), 169-177 [23] Zhongyuan He, Yaogang Li, Qinghong Zhang, Hongzhi Wang, Capillary microchannel-based microreactors with highly durable ZnO/TiO2 nanorod arrays for rapid, high efficiency and continuous-flow photocatalysis, Applied Catalysis B: Environmental, 2010, 119 (1-2), 222-229 [24] Guangxiu Cao, Yaogang Li, Qinghong Zhang, and Hongzhi Wang, Synthesis and Characterization of La2O3/TiO2-xFx and The Visible LightPhotocatalytic Oxidation of 4-Chlorophenol, Journal of Hazardous Materials, 2010, 178, 440-449 [25] Guangxiu Cao, Yaogang Li, Qinghong Zhang, and Hongzhi Wang, Enhanced Visible Light-Driven Photocatalytic Performance of La-Doped TiO2-xFx, Journal of the American Ceramic Society, 2010, 93 (1), 25-27 [26] Zhongyuan He, Yaogang Li, Qinghong Zhang, Hongzhi Wang, Distribution-tunable growth of ZnO nanorods on the inner walls of microcapillaries from reverse micelle deriving seed patterns, Materials Chemistry and Physics, 2010, 119(1-2): 222â€?29 [27] Jiapeng Fu, Qinghong Zhang, Yaogang Li, Hongzhi Wang, Highly luminescent red light phosphor CaTiO3:Eu3+ under near ultraviolet excitation, Journal of Luminescence, 2010, 130 (2): 231â€?35 [28] Yunxin Gu, Qinghong Zhang, Yaogang Li, Hongzhi Wang, Synthesis of CaSi2O2N2:Eu LED-Phosphors from Reactive Spherical Templates with Hollow Structures. Journal of the Electrochemical Society 2010, 157 (3), B388-B391 [29] Chengyi Hou, Hao Yu, Qinghong Zhang, Yaogang Li, Hongzhi Wang, Preparation and magnetic property analysis of monodisperse Co-Zn ferrite nanospheres. Journal of Alloys and Compounds 2010, 491 (1-2), 431-435 [30] Wenting Sun, Yunxin Gu, Qinghong Zhang, Yaogang Li, Hongzhi Wang, CaTiO3:Eu3+ layers coated SiO2 particles: Core-shell structured red phosphors for near-UV white LEDs. Journal of Alloys and Compounds 2010, 493 (1-2), 561-564 [31] Yanling Zhang, Meifang Zhu, Qinghong Zhang, Hao Yu, Yaogang Li, Hongzhi Wang, Solvothermal one-step synthesis of MWCNTs/Ni0.5Zn0.5Fe2O4 magnetic composites. Journal of Magnetism and Magnetic Materials 2010, 322 (14), 2006-2009 授æƒçš„专利: 已授æƒä¸“利: [1] 王å®å¿—,朱丽è,朱美芳,æŽè€€åˆšï¼Œå¼ é’红,一ç§å•åˆ†æ•£èšä¹³é…¸å¾®çƒçš„制备方法,专利授æƒå·ï¼šZL 200810202424.0,授æƒæ—¶é—´ï¼š2011.2.9 [2] 王å®å¿—,何ä¸åª›ï¼ŒæŽè€€åˆšï¼Œå¼ é’红,连ç»é«˜é€šé‡å¯Œé›†åˆ†ç¦»ç£·é…¸è‚½çš„å¾®æµæŽ§å™¨ä»¶ï¼Œä¸“利授æƒå·ï¼šZL 201020234669.4,授æƒæ—¶é—´ï¼š2011.2.9 [3] 王å®å¿—,朱丽è,朱美芳,æŽè€€åˆšï¼Œå¼ é’红,一ç§å…±è½´å¾®é€šé“å应器的制备方法,专利授æƒå·ï¼šZL 200810200360.0,授æƒæ—¶é—´ï¼š2011.4.27 [4] æŽè€€åˆšï¼Œæ¯•æˆï¼ŒçŽ‹å®å¿—ï¼Œå¼ é’红,朱美芳,一ç§é’›é…¸é’¡/多å£ç¢³çº³ç±³ç®¡çº³ç±³å¤åˆæ料的制备方法,专利授æƒå·ï¼šZL 200910045216.9,授æƒæ—¶é—´ï¼š2011.4.27 [5] å¼ é’红,石ç¦å¿—,朱美芳,王å®å¿—,æŽè€€åˆšï¼Œæ ?壳结构的èšè‹¯ä¹™çƒ¯/二氧化钛å¤åˆå…‰å‚¬åŒ–剂的制备,专利授æƒå·ï¼šZL 200910049772.3,授æƒæ—¶é—´ï¼š2011.4.27 [6] å¼ é’红,æŽçˆ½ï¼Œé’±è¿ªé”‹ï¼ŒçŽ‹å®å¿—,æŽè€€åˆšï¼Œä¸€ç§è¶…细é”钛矿相二氧化钛纳米棒的制备方法,专利授æƒå·ï¼šZL 200910051831.0,授æƒæ—¶é—´ï¼š2011.4.27 [7] å¼ é’çº¢ï¼Œå¼ åˆ©ï¼ŒçŽ‹å®å¿—,æŽè€€åˆšï¼Œå¾®å应器åˆæˆé”钛矿相二氧化钛纳米颗粒的方法,ä¸å›½å‘明专利,授æƒå·ï¼šZL 200910054385.9,授æƒæ—¶é—´ï¼š2011.6.8 [8] 王å®å¿—,纪磊é¹ï¼ŒæŽè€€åˆšï¼Œå¼ é’红,微å应器ä¸åŽŸä½èšåˆåˆ¶å¤‡N-异丙基丙烯酰èƒ?多å£ç¢³çº³ç±³ç®¡å¤åˆå¾®å‡èƒ¶çš„方法,ä¸å›½å‘明专利,授æƒå·ï¼šZL 201010022460.6,授æƒæ—¶é—´ï¼š2011.8.31 [9] å¼ é’红,毛ç¿å¥•ï¼ŒçŽ‹å®å¿—,æŽè€€åˆšï¼Œç”¨å±‚层自组装法制备全纳米颗粒å¯è§å…‰åŒºå‡å射的方法,ä¸å›½å‘明专利,授æƒå·ï¼šZL 200910056748.2,授æƒæ—¶é—´ï¼š2011.11.9 [10] 王å®å¿—ï¼Œæ›¹å¹¿ç§€ï¼Œå¼ é’红,æŽè€€åˆšï¼Œç©ºå¿ƒå¤šå”四足氮化钛的制备方法,ä¸å›½å‘明专利,授æƒå·ï¼šZL 201010167820.1,授æƒæ—¶é—´ï¼š2011.11.9 [11] å¼ é’红,石ç¦å¿—,王å®å¿—,æŽè€€åˆšï¼Œç¾ŸåŸºç£·ç°çŸ³åŒ…覆金红石相二氧化钛纳米å¤åˆç²‰ä½“的制备,ä¸å›½å‘明专利,授æƒå·ï¼šZL 200910046262.0,授æƒæ—¶é—´ï¼š2011.11.9 [12] æŽè€€åˆšï¼Œå¼ 祺,王å®å¿—ï¼Œå¼ é’红,朱美芳,一ç§é“Ÿé”¡æ°§åŒ–物/多å£ç¢³çº³ç±³ç®¡å¤åˆæ料的制备方法,专利授æƒå·ï¼šZL 200810036781.4,授æƒæ—¶é—´ï¼š2010.3.24 [13] 王å®å¿—ï¼Œæ›¹å¹¿ç§€ï¼Œå¼ é’红,æŽè€€åˆšï¼Œæ°Ÿã€é•§å…±æŽºæ‚的纳米二氧化钛å¯è§å…‰å‚¬åŒ–剂的制备方法,ä¸å›½å‘明专利,专利授æƒå·ï¼šZL 200910045217.3,授æƒæ—¶é—´ï¼š2010.8.11 [14] æŽè€€åˆšï¼Œåˆ˜å¿—ç¦ï¼ŒçŽ‹å®å¿—ï¼Œå¼ é’红,一ç§æ°§åŒ–锌 (ZnO) 纳米棒的制备方法,ä¸å›½å‘明专利,专利授æƒå·ï¼šZL 200910048958.7,授æƒæ—¶é—´ï¼š2010.9.8 [15] æŽè€€åˆšï¼Œå¼ 燕玲,闫伟,王å®å¿—ï¼Œå¼ é’红,é•é”Œé“氧体(NixZn1-xFe2O4)包覆碳纳米管ç£æ€§çº³ç±³å¤åˆæ料的制备方法,ä¸å›½å‘明专利,专利授æƒå·ï¼šZL 200910045809.5,授æƒæ—¶é—´ï¼š2010.11.17 [16] æŽè€€åˆšï¼Œå¼ 祺,王å®å¿—ï¼Œæœ±ç¾ŽèŠ³ï¼Œå¼ é’红,四氧化三é“/多å£ç¢³çº³ç±³ç®¡ç£æ€§çº³ç±³å¤åˆæ料的制备方法,ä¸å›½å‘明专利,专利授æƒå·ï¼šZL 200810035150.0,授æƒæ—¶é—´ï¼š2010.11.17 [17] å¼ é’红,æŽçˆ½ï¼ŒçŽ‹å®å¿—,æŽè€€åˆšï¼Œé”钛矿相二氧化钛溶胶的制备方法,ä¸å›½å‘明专利,专利授æƒå·ï¼šZL 200810200700.X,授æƒæ—¶é—´ï¼š2010.11.17 [18] å¼ é’红,è¢ç´ çºï¼ŒçŽ‹å®å¿—,æŽè€€åˆšï¼Œæ°§åŒ–锌纳米棒/é•é“层状åŒæ°¢æ°§åŒ–物的制备åŠå…¶åº”用,ä¸å›½å‘明专利,专利授æƒå·ï¼šZL 200810201188.0,授æƒæ—¶é—´ï¼š2010.11.17 [19] æŽè€€åˆšï¼Œå¼ 祺,毕æˆï¼ŒçŽ‹å®å¿—,一ç§äº²æ²¹æ€§çº³ç±³SiO2粉体的制备方法,ä¸å›½å‘明专利,专利授æƒå·ï¼šZL 200710171933.7,授æƒæ—¶é—´ï¼š2010.11.17 [20] 王å®å¿—,付嘉é¹ï¼ŒæŽè€€åˆšï¼Œå¼ é’红,一ç§é“•æŽºæ‚钛酸钙(CaTiO3:Eu3+)è§å…‰ç²‰çš„制备方法,ä¸å›½å‘明专利,专利授æƒå·ï¼šZL 200810200359.8,授æƒæ—¶é—´ï¼š2010.12.8 è¿‘å‡ å¹´æ‰¿æ‹…çš„ç§‘ç ”é¡¹ç›®ï¼™übr /> å‚与了国家â€?73计划â€çº³ç±³é™¶ç“·ææ–™åé¡¹ç›®çš„ç ”ç©¶ï¼› å‚与了ä¸å›½ç§‘å¦é™¢çŸ¥è¯†åˆ›æ–°å·¥ç¨‹é‡å¤§é¡¹ç›®, “纳米陶瓷和纳米å¤åˆææ–™â€ã€ä¸Šæµ·å¸‚科技å‘展基金项目“新型纳米å¤ç›¸é™¶ç“·çš„制备和性能â€ç‰é¡¹ç›®çš„ç ”ç©¶å·¥ä½œã€übr /> |
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