姓名:齐建全
性别:男
职称:教授
【联系方式】
办公室:综合实验楼1226房间
电 话:0335-8050031
传真: 0335-8057908
【个人简历】
Education(学历背景)
2003,Ph. D.Tsinghua University( 工学博士, 清华大学, 材料系)
1992,M. S.Tsinghua University(工学硕士, 清华大学,核能技术研究院)
1989,B. S.Tsinghua University(工学学士, 清华大学, 材料系)
Professional Experience(工作经历)
2010- Professor,Northeastern University at Qinhuangdao Branch(特聘教授, 东北大学秦皇岛分校,永利)
2002-2010, Associate professor, Tsinghua University(副教授,清华大学,材料系)
2003-2005, Post Doctoral Fellow,the Hong Kong Polytechnic Univesity(香港理工,应用物理系)
1993-2001, Lecturer , Tsinghua University( 清华大学,材料系)
1995-1997, Head Engineer, Diyu Company(迪宇公司)
1992-1995, Manager, Plant of PTCR of Tsinhua Ziguan Company, (清华紫光)
【研究领域】
Research Interests(研究兴趣)
l Semiconducting Ceramics: Obtained the dense BaTiO3ceramics with the best resistance jumping in the world till this time using vapor doping method which was developed in 1997 by Dr Qi (the jumping almost reached greater than 8 orders’ degree).
半导体陶瓷:1997年得到了升阻比超过8个量级,温度系数大于40%/0C的致密PTCR陶瓷材料,这是迄今为止致密陶瓷中,国内外最高水平(超过7个量级的致密的PTCR陶瓷是罕见的)。
l Dielectric Ceramics:High voltage BaTiO3based capacitor materials: >4kv/mm(AC), dielectric constant>20000, meeting Y5V specifications. Media-low temperature BaTiO3-based X7R MLCC materials: dielectric constant>3500, sintered at <1150 ℃, meeting x7r specifications. (sintered at1250℃, the dielectric constant can be greater than 4500.)
介电陶瓷:2000年用稀土,对BaZrTiO3陶瓷掺杂,得到了耐压值也高达4KV/mm(AC),介电常数>2.5万的Y5V高压瓷料。
l Nano-scaled Ceramic powders: Developed a new method to synthesize perovskite nanomaterials directly from solution near or at room temperature under the normal pressure.
纳米合成:2002年,发明了溶液直接合成法,实现了在常压接近或在室温下,钛酸盐系(包括钛酸钡、钛酸锶、锆酸钡等及其固熔体)纳米颗粒的批量直接合成。2009年实现一些氧化物和复合氧化物室温直接合成。
【论文、著作及专利】
Journal publications(部分英文文章)
[1]Jianquan Qi, Li Sun, Xiwei Qi, Yu Wang, Helen Laiwah Chan, Grain size modulation on BaTiO3nanoparticles synthesized at room temperatureJournal of Solid State Chemistry,2011,184: 2690–2694.
[2]Jian Quan Qi, Tao Peng, Yong Ming Hu, Li Sun, Yu Wang, Wan Ping Chen, Long Tu Li, Ce Wen Nan and Helen Lai Wah Chan, Direct synthesis of ultrafine tetragonal BaTiO3nanoparticles at room temperature,Nanoscale Research Letters2011, 6:466
[3]Jian Quan Qi, Li Sun, Yu Wang, Wan Ping Chen, Peng Du, You Guo Xu, Long Tu Li, Ce Wen Nan, Helen Lai Wah Chan, Excess titanium in barium titanate nanoparticles directly synthesized from solution,Journal of Physics and Chemistry of Solids,2010, 71:1676–1679
[4]Jian Quan Qi, Li Sun, Peng Du , Wan Ping Chen, You Guo Xu, Long Tu Li, Stoichiometry of BaTiO3nanoparticles,J.Nanopart.Res., 2010, 12[7]: 2605-2609
[5]Jianquan Qi, Li Sun , Peng Du, Longtu Li,Slurry Synthesis of Bismuth Sodium Titanate with Transient Aurivillius-type Structure,J. Am. Ceram. Soc., 2010, 93[4]:1044–1048
[6]Jian Quan Qi, Hu Yong Tian, Long Tu Li, Helen Lai Wah Chan, Fabrication of CuO nanoparticle interlinked microsphere cages by solution method,Nanoscale Research Letters, 2007, 2:107–111
[7]Jian Quan Qi, Yu Wang, Wan Ping Chen, Long Tu Li, Helen Lai Wah Chan, Perovskite Barium Zirconate Titanate Nano-Particles Directly Synthesized from Solutions,J. Nanopart. Res.2006, 8[6]:959-963
[8]Jian Quan Qi, Yu Wang, Wan Ping Chen, Hu Yong Tian, Long Tu Li, Helen Lai Wah Chan, Room Temperature Synthesis of Titania Microspheres by Hydrolysis of Titanium Alkoxide using water vapor,Journal of Alloys and Compounds, 2006, 413/1-2:307-311
[9]Qi JQ, Chen WP, Lu M, et al. Fabrication of copper ferrite nanowalls on ceramic surfaces by an electrochemical method,Nanotechnology,2005, 16[12]: 3097-3100
[10]Jian Quan Qi, Ting Zhang, Mei Lu, Yu Wang, Wan Ping Chen, Long Tu Li, Helen Lai Wah Chan, Conversion of Conventional NiO Powders into Nanostructures by a Simple Chemical Method,Chemistry Letters,2005, 34[2]:180-181
[11]Jian Quan Qi, Hu Yong Tian, Yu Wang, Geoffrey Kin Hung Pang, Long Tu Li, Helen Lai Wah Chan, Analyzing core-shell structured zinc doped MgO wrapped Ba1-xSrxTiO3nanoparticles,J. Phys. Chem. B, 2005, 109[29]:14006-14010
[12]Jian Quan Qi, Yu Wang, Wan Ping Chen, Long Tu Li, Helen Lai Wah Chan, Direct large-scale synthesis of perovskite barium strontium titanate nano-particles from solutions,Journal of Solid State Chemistry, 2005, 178[1]: 279-284
[13]Qi, JQ; Chen, WP; Wang, Y; Chan, HLW; Li, LT, Dielectric properties of barium titanate ceramics doped by B2O3vapor,Journal Of Applied Physics, 2004, 96[11]: 6937-6939
[14]Qi, JQ; Li, LT; Wang, YL; Gui, ZL, Preparation of nanoscaled BaTiO3powders by DSS method near room temperature under normal pressure,Journal of Crystal Growth, 2004, 260[3-4]: 551-556
[15]Qi, JQ; Chen, WP; Wang, HY; Wang, Y; Li, LT; Chan, HLW, Low temperature sintering behavior of B2O3vapor in BaTiO3-based PTCR thermistors,Sensors and Actuators A-physical, 2004, 116 [2]:215-218
[16]Qi, JQ; Gui, ZL; Zhu, Q; Wang, YL; Wu, YJ; Li, LT, Doping behavior of CdO in BaTiO3-based PTCR ceramics,Sensors and Actuators A-physical, 2002, 100[2-3]: 244-246
[17]Qi, JQ; Zhu, Q; Wang, YL; Wu, YJ; Li, LT, Enhancement of positive temperature coefficient resistance effect of BaTiO3-based semiconducting ceramics caused by B2O3vapor dopants,Solid State Communications, 2001, 120[12]:505-508
[18]Qi, JQ; Gui, ZL; Wu, YJ; Li, LT, Enhancement of PTCR effect of semiconducting Ba1-xSrxTiO3by Sb2O3vapor,Sensors and Actuators A-physical, 2001, 93[1]: 84-85
[19]Qi, JQ; Gui, ZL; Li, LT; Wu, YJ, Positive temperature coefficient resistance effect in Ba1-xSrxTiO3ceramics modified with Bi2O3and PbO by a vapor-doping method,Journal ofMaterials Research1999, 14[8]: 3328-3329
[20]Qi, JQ; Chen, WP; Wu, YJ; Li, LT, Improvement of the PTCR effect in Ba1-xSrxTiO3semiconducting ceramics by doping of Bi2O3vapor during sintering,J. Am. Ceram. Soc., 1998, 81 [2]: 437-438
部分中文代表作品:
[1]齐建全,李龙土,桂治轮,“钛酸钡中的硼间隙及其对PTCR效应的影响”,稀有金属材料与工程,2004(03),251-253
[2]齐建全,李龙土,樊亦伟,王永力,桂治轮,“B2O3蒸汽掺杂的中低温烧结Y-BaTiO3及其PTCR特性研究”,无机材料学报,2003(04),818-822
[3]齐建全,李龙土,王永力,桂冶轮,“钛酸钡纳米粉体的溶液直接合成法”,钛工业进展 2003(03),25-27
[4]齐建全,吴音,张少华等,“BaTiO3陶瓷烧结过程中晶粒生长的新机制”,稀有金属材料与工程,2003, 32(supp1): 449-451
[5]齐建全,李雯,王永力,桂治轮,李龙土,“中低温烧结的温度稳定型Ba1-xCdxTiO3介电材料”,无机材料学报, 2002(06),1199-1202
[6]齐建全,李龙土,王永力,桂治轮,钛酸钡陶瓷中Y2O3掺杂过程的XRD分析,稀有金属材料与工程, 2002, 31(supp1), 237-240
[7]齐建全,李龙土, 朱 青, 王永力,桂治轮,“CdO掺杂对BaTiO3基半导化陶瓷PTCR效应的改善”,化学学报,2001,59 (11): 1942-1945
[8]齐建全,桂治轮,王永力,李琦,李龙土,“Yb2O3的掺杂方式对Ba(Ti1-yZry)O3陶瓷介电性能的影响”,无机材料学报,2001(05),989-992
[9]齐建全,李龙土,朱青,王永力,桂治轮,“BaTiO3基PTCR陶瓷中B2O3蒸汽掺杂的异常行为”,无机材料学报,2001(04),739-741
[10]齐建全,桂治轮,李龙土,“蒸汽掺杂-一种新的钛酸钡基PTCR陶瓷的掺杂方法”,无机材料学报,1999(03),408-412
Patent(专利):
[1]张中太,唐子龙,齐建全:正温度系数热敏电阻陶瓷超细粉的制造方法,CN91111035.6
[2]齐建全,李龙土,王永利,桂治轮:一种合成纳米级钙钛矿陶瓷粉体的方法CN02153870.0
[3]齐建全,孙黎,杜鹏,李龙土:一种合成纳米级氧化物陶瓷粉体的方法,CN200810106085.6
[4]齐建全,杜鹏,孙黎,李龙土:用于制备织构层状结构的钙钛矿系陶瓷纳米粉体合成方法,CN200810106086.0
[5]齐建全,孙黎,马振伟,彭韬,刘佰博,李龙土:一种纳米级氧化物粉体的直接合成法,CN201010129715.9
[6]齐建全、刘佰博、马振伟、彭韬、李龙土,一种可施加磁场的新型球磨罐,CN201010608569.8
【科研项目】
作为校内负责人承担973项目“纳米晶信息功能陶瓷的制备科学及其应用”1项,中港合作自然基金“新型磁-电可调的压电/磁性复合材料”1项,国家重点实验室开放基金1项。
【主讲课程】
《无机材料物理性能》,《材料物理与化学实验》,《功能材料》
【招生/招聘信息】
欢迎有材料科学与工程、物理、化学背景的同学攻读研究生。