基本情况
吴明娒,博士,中山大学化学与化学工程学院教授。现任中山大学无机化学、材料物理与化学博士点博士生导师,中山大学光电材料与技术国家重点实验室、生物无机与合成化学教育部重点实验室固定研究人员。《功能材料》第四、五、六届编辑委员会委员;中国仪器仪表学会仪表材料学会第四、五届理事会理事;广东省材料学会理事;美国化学会jacs, acs, nano, inorganic chemistry, chemistry of materials, journal of physical chemistry c、langmuir, 德国化学会的advanced functional materials以及美国陶瓷学会《美国陶瓷学会杂志》等刊物的评论员。
研究领域
无机功能材料的制备、结构和性能及应用
论文发表
至今,在journal
of the american chemical society, dvanced functional
materials, acs nano, emistry
of materials, journal of materials chemistry, applied physics letters, inorganic
chemistry和langmuir等国际化学、材料重要刊物上共发表论文100余篇,被引用800余次,三篇文章入选es1。近2年来,在国际会议上做4次相关工作的邀请报告。目前的一些研究结果不仅以论文的形式发表在国际重要刊物上,还在最近五年申请专利9项;近2年来就有5项有关工作获得授权,同时还得到了一些企业的认可,与企业共同承担有关应用研究。吴明娒教授本人与美国、香港等多个高校开展了广泛的研究合作和交流活动。吴明娒教授及其课题组在纳米材料的控制制备、特别是在结构设计和分析,纳米功能材料以及材料在相关领域的应用研究有一定的积累和经验。
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xianfeng
yang, chongjun jin, chaolun liang, dihu chen, mingmei wu* and jimmy c. yu*: “nanoflower
arrays of rutile tio2”; chem. commun. 2011, 47, 1184–1186
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liqiao
chen, hongquan zhan, xianfeng yang, zhaoyong sun, jun zhang, dan xu, chaolun
liang, mingmei wu, and jiye fang: “composition and size tailored synthesis of
iron selenide nanoflakes”; crystengcomm, 2010, 12 (12), 4386-4391
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xianfeng
yang, junxiang fu, chongjun jin, jian chen, chaolun liang, mingmei wu, and
wuzong zhou: “formation mechanism of catio3 hollow crystals with different
microstructures”; j. am. chem. soc., 2010, 132 (40), 14279–14287
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fenghua
zhao, jian-guo zheng, xianfeng yang, xiuyan li, jing wang, fuli zhao, kam sing
wong, chaolun liang and mingmei wu, “complex zno nanotree arrays with
tunable top, stem and branch structures”, nanoscale, 2010, 2, 1674–1683(封面文章)
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hongquan
zhan, xianfeng yang, chaomin wang, chaolun liang, and mingmei wu: “multiple
growth stages and their kinetic models of anatase nanoparticles under
hydrothermal conditions”; j. phys. chem. c, 2010, 114, 14461–14466
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liqiao
chen, xianfeng yang, jian chen, jia liu, hao wu, hongquan zhan, chaolun liang,
and mingmei wu: “continuous shape- and spectroscopy-tuning of hematite
nanocrystals”; inorg. chem. 2010, 49, 8411-8420
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li
tian, hongli zou, junxiang fu, xianfeng yang, yi wang, hongliang guo, xionghui
fu, chaolun liang, mingmei wu, pei kang shen and qiuming gao: “topotactic
conversion route to mesoporous quasi-single-crystalline co3o4 nanobelts with
optimizable electrochemical performance”, adv. funct. mater. 2010, 20, 617–623
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xianfeng
yang, jian chen, li gong, mingmei wu, and jimmy c. yu*: “cross-medal arrays of
ta-doped rutile titania”, j am chem soc. 2009, 131(34): 12048-9
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xianfeng
yang, chinnathambi karthik, xiuyan li, junxiang fu, xionghui fu, chaolun liang,
n. ravishankar, mingmei wu,* ganapathiraman ramanath*: “oriented nanocrystal
arrays of selectable polymorphs by chemical sculpture”; chem. mater., 2009, 21,
3197–3201
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xianfeng
yang, jianle zhuang, xiuyan li, dihu chen, gangfeng ouyang, zhongquan mao,
yaxiong han, zhenhui he, chaolun liang, mingmei wu,* and jimmy c. yu*: “hierarchically
nanostructured rutile arrays: acid vapor oxidation growth and tunable morphologies”;
acs nano, 2009, 3, 1212-1218
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jianle
zhuang, jing wang, xianfeng yang, ian d. williams, wei zhang, qinyuan zhang,
zhouming feng, zhongmin yang, chaolun liang, mingmei wu,* and qiang su: “tunable
thickness and photoluminescence of bipyramidal hexagonal β-nayf4 microdisks”;
chem. mater. 2009, 21, 160–168
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xiuyan
li, fenghua zhao, junxiang fu, xianfeng yang, jing wang, chaolun liang, and
mingmei wu*: “double-sided comb-like zno nanostructures and their derivative
nanofern arrays grown by a facile metal hydrothermal oxidation route”; cryst. growth
des, 2009, 9(1), 409-413
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li
tian, xianfeng yang, ping lu, ian d. williams, caihong wang, shunying ou,
chaolun liang, and mingmei wu: “hollow single-crystal spinel nanocubes: the
case of zinc cobalt oxide grown by a unique kirkendall effect”; inorg. chem.
2008, 47, 5522-5524
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xianfeng
yang, ian d. williams, jian chen, jing wang, huifang xu, hiromi konishi,
yuexiao pan, chaolun liang and mingmei wu: “perovskite hollow cubes:
morphological control, three-dimensional twinning and intensely enhanced
photoluminescence”; j. mater. chem., 2008, 18, 3543–3546
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fenghua
zhao, xiuyan li, jian-guo zheng, xianfeng yang, fuli zhao, kam sing wong, jing
wang, wenjiao lin, mingmei wu, qiang su: “zno pine-nanotree arrays grown from
facile metal chemical corrosion and oxidation”; chem. mater. 2008, 20,
1197–1199
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jianle
zhuang, lifang liang, herman h. y. sung, xianfeng yang, mingmei wu, ian d.
williams, shouhua feng, and qiang su: “controlled hydrothermal growth and
up-conversion emission of nalnf4 (ln=y, dy-yb)”, inorg. chem., 2007, 46,
5404-5410
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sha
ding, ping lu, jian-guo zheng, xianfeng yang, fuli zhao, jian chen, hao wu, and
mingmei wu:textured tubular nanoparticle structures:
precursor-templated synthesis of gan sub-micrometer sized tubes,adv. func.
mater., 2007, 17(12), 1879-1886
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fenghua
zhao, wenjiao lin, mingmei wu, ningsheng xu, xiangfeng yang, z. ryan tian, and
qiang su; “hexagonal and prismatic nanowalled zno microboxes”; inorg. chem.,
2006, 45, 3256–3260
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xianfeng
yang, hiromi konishi, huifang xu, and mingmei wu: “comparative
sol–hydro(solvo)thermal synthesis of tio2 nanocrystals”; eur. j. inorg. chem.,
2006, 2229–2235
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mingmei
wu, teresa s-c. law, herman h-y. sung, jiwen cai and ian d. williams, synthesis
of elliptical vanadoborates housing bimetallic centers
[zn4(b2o4h2)(v10b28o74h8)]8- and [mn4(c2o4)(v10b28o74h8)]10-”, chemical
communications, 2005, 1827–1829
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lifang
liang, huifang xu, qiang su, hiromi konishi, yingbin jiang, mingmei wu, yifeng
wang, deying xia, “hydrothermal synthesis of prismatic nahof4 microthubes
and nasmf4 nanotubes”; inorganic chemistry, 43(5), 1594-1596(2004)
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xijian
chen, huifang xu, ningsheng xu, fenghua zhao, wenjiao lin, gang lin, yunlong
fu, zhenli huang, hezhou wang, and mingmei wu; “kinetically controlled
synthesis of wurtzite zns nanorods through mild thermolysis of a covalent
organic-inorganic network”; inorganic chemistry, 42, 3100-3106(2003)
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mingmei
wu, gang lin, dihu chen, guangguo wang, dian he, shouhua feng, ruren xu; “sol-hydrothermal
synthesis and hydrothermally structural evolution of nanocrystal titanium
dioxide”; chemistry of materials, 14, 1974-1980(2002)