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fanhbu

木虫 (著名写手)
★ ★ ★ ★ ★
kqy920(金币+5,VIP+0):谢谢分享!欢迎常来!
【姓      名】:Harry Kroto


【研究方向】:  Main research areas:  
   
I Spectroscopy of Unstable Species and Reaction Intermediates (Infrared, Photoelectron, Microwave and Mass Spectrometry)
II Astrophysics (Interstellar Molecules and Circumstellar Dust)
III Cluster Science (Carbon and Metal Clusters, Microparticles, Nanofibres)  
IV Fullerene Chemistry, Nanoscience and Nanotechnology  
   
Research Highlights (Ref Nos - Key Refs List)
   
a) First detection of 1Δ state of a polyatomic free radical (NCN by flash photolysis) [3,4]
b) Theoretical studies of ground and electronically excited sates of small molecules [5,6]
c)  Detection of liquid phase intermolecular interactions using Raman Spectroscopy [ 7-10]
d) Breakthrough in the detection of new unstable species (thioaldehydes, thiocarbonyls thioborines) using combination of microwave and photoelectron spectroscopy techniques [12,15,18-22,31,80]
e) Synthesis in 1976 of the first phoaphaalkenes (compounds containing the free carbon phosphorus double bond) in particular CH2=PH (with N P C Simmons and J F Nixon, Sussex), [28, 80]
f) Monograph “Molecular Rotation Spectra” [23]
g) Synthesis in 1976 of the first analogues of HCP, the phosphaalkynes which contain the carbon phoshorus triple bond - in particular CH3CP (with N P C Simmons and J F Nixon, Sussex), [29,80]
h) The discovery (1976-8) of the cyanopolyynes, HCnN (n=5,7,9), in interstellar space (with D R M Walton A J Alexander and C Kirby (Sussex) and T Oka, L W Avery, N W Broten and J M MacLeod (NRC Ottawa)), Ref 4-6, based on microwave measurements made at Sussex, [27,30,35,80]  
i) The discovery of C60: Buckminsterfullerene in 1985 (with J R Heath, S C O'Brien, R F Curl and R E Smalley), [100,112,139,239]  
j) The detection of endohedral metallofullerene complexes (with J R Heath, S C O'Brien, Q Zhang, Y Liu, R F Curl, F K Tittel and R E Smalley), [101,139]  
k) The prediction that C60 should be produced in combustion processes and might indicate how soot is formed (with Q L Zhang, S C O'Brien, J R Heath, Y Liu, R F Curl and R E Smalley) [103,139]  
l) The explanation of why C70 is the second stable fullerene (after C60) and the discovery of the Pentagon Isolation Rule as a criterion for fullerene stability in general [107,112,139,239]  
m) The prediction of the tetrahedral structure of C28 and the possible stability of "tetravalent" derivatives such as C28H4 [107,112,139,239]   
n) The prediction that giant fullerenes have quasi-icosahedral shapes and the detailed structure of concentric shell graphite microparticles (with K G McKay), [111,112,139,239]
o) The mass spectrometric identification and solvent extraction (with J P Hare and A Abdul-Sada) of C60 from arc processed carbon in 1990 - independently from and simultaneously with the Heidelberg/Tucson group; Refs [121,239]  
p) The chromatographic separation/purification of C60 and C70 and 13C NMR measurements which provided unequivocal proof that these species had fullerene cage structures (with J P Hare and R Taylor, Sussex), Refs [121,139,239]  
q) Crystal structure of C60 [135,138]  
r) Main Fullerene chemistry breakthroughs: C60(ferrocene)2 [162], characterisation of C60Hal6 [174,149], C60(P4)2 [187], [192]
s) Nanoscience and Nanotechnology advances: Condensed phase nanotubes [205], nanoscale BN structures [224], partly aligned-nanotube bundles [233], nanotube formation mechanisms [161,238], silicon oxide nanostructures [247], Si surface-deposited fullererene studies [251], insulated carbon nanotube conductors [297]   
   


【个人简历】:[Professor Sir Harry Kroto FRS] in 1996 Professor Kroto was jointly awarded the Nobel Lauriate for chemistry with Richard Smalley and Robert Curl, for the discovery of C60 [buckyballs], and later that year he received a Knighthood by Queen Elizabeth II. (In 1985 his experiment, designed to unravel the carbon chemistry in red giant stars, revealed the existence of Buckminsterfullerene)
    Since 1990 he has been chairman of the editorial board of the Chemical Society Reviews. Currently he is researching Synthetic Fullerene Chemistry, Nanotubes and nanoparticles, Cluster beam studies [Generation of small fullerenes (C24, C28 etc...) by laser vaporisation], and Astrophysical studies monitoring of red giant stars in the search for C60 in space, at the Sussex Fullerene Research Centre
http://www.kroto.info/General_info/CV_B.html
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41楼2008-12-29 19:14:39
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kinmer

铁杆木虫 (著名写手)
★ ★ ★ ★ ★
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【姓      名】:Dr. Chad Mirkin
【研究方向】:  Main research areas:
Dr. Chad A. Mirkin's research focuses on developing methods for controlling the architecture of molecules and materials on the 1-100 nm length scale, and utilizing such structures in the development of analytical tools that can be used in the areas of chemical and biological sensing, lithography, catalysis, and optics. Mirkin has pioneered the use of biomolecules as synthons in materials science and the development of nanoparticle-based biodiagnostics. Many of the concepts and materials developed within his laboratories are now the basis for commercial detection and lithography systems.
【Publications】:

Huo, F.; Zheng, Z.; Zheng, G.; Giam L. R.; Zhang, H.; Mirkin, C. A. “Polymer Pen Lithography” Science 2008, online  DOI: 10.1126/science.1162193  (pdf reprint)
Kuwabara, J.; Ovchinnikov, M. V.; Stern, C. L.; Mirkin, C. A. “The Reactivity of Dinuclear Rhodium(I) Macrocycles Formed via the Weak-Link Approach,” Organometallics 2008, 27, 789-792.
Kim, K.-H.; Sanedrin, K.; Ho, A. M.; Lee, S.-W.; Moldovan, N.; Mirkin, C. A.; Espinosa, H. D. “Direct Delivery and Submicrometer Patterning of DNA by a Nanofountain Probe,” Adv. Mater. 2008, 20, 330-334.
Lee, J.-S.; Ulmann, P. A.; Han, M. S.; Mirkin, C. A. “A DNA-Gold Nanoparticle Based Colorimetric Competition Assay for the Detection of Cysteine,“ Nano Lett. 2008, 8, 529-533.
Ciszek, J. W.; Huang, L.; Wang, Y.; Mirkin, C. A. “Kinetically-Controlled, Shape-Directed Assembly of Nanorods,“ Small 2008, 4, 206-210.
Park, S. Y.; Lytton-Jean, A. K. R.; Lee, B.; Weigand, S.; Schatz, G. C.; Mirkin, C. A. “DNA-Programmable Nanoparticle Crystallization,“ Nature 2008, 451, 553-556.
Oliveri, C. G.; Nguyen, S.; Mirkin, C. A. “A Highly Modular and Convergent Approach for the Synthesis of Stimulant-Responsive Heteroligated Cofacial Porphyrin Tweezer Complexes,” Inorg. Chem. 2008, 47, 2755-2763.
Sanedrin, R. G.; Huang, L.; Jang, J.-W.; Kakkassery, J.; Mirkin, C. A. “Polyethylene Glycol as a Novel Resist and Sacrificial Material for Generating Positive and Negative Nanostructures,“ Small 2008, in press.
Zheng, G.; Qin, L.; Mirkin, C. A. “Spectroscopically Enhancing Electrical Nanotraps,” Angew. Chem. Int. Ed. 2008, 47, 1938-1941.
Lithography-Based Molecular Transport Junctions: A New Testbed for Molecular Electronics“ J. Am. Chem. Soc. 2008, in press.
Xue, C.; Metraux, G. S.; Millstone, J. E.; Mirkin, C. A. “A Mechanistic Study of Photomediated Triangular Silver Nanoprism Growth” J. Am. Chem. Soc. 2008, in press.
Banholzer, M. J.; Millstone, J. E.; Mirkin, C. A. “Rationally Designed Nanostructures for Surface Enhanced Raman Spectroscopy,“ Chemical Society Reviews 2008, 37, 885-897.
Banholzer, M. J.; Millstone, J. E.; Mirkin, C. A. “On-Wire Lithography: Designing Nanostructures with Optimal SERS Behavior,“ SPIE Newsroom (Online 2008), April 25, 2008. http://spie.org/x24237.xml (accessed May 5, 2008).
Xu, X.; Zhao, Z.; Qin, L.; Wei, W.; Levine, J. E.; Mirkin, C. A. “A Fluorescence Recovery Assay for the Detection of Protein - DNA Binding,“ Analytical Chem. 2008, in press.
Oliveri, C. G.; Ulmann, P. A.; Wiester, M. J.; Mirkin, C. A. “Heteroligated Supramolecular Coordination Complexes Formed via the Halide Induced Ligand Rearrangement Reaction,“ Acc. Chem. Res. 2008, in press.
Lee, J.-S.; Seferos, D. S.; Giljohann, D. A.; Mirkin, C. A. “Synthesis, Thermodynamically Controlled Separation, and Characterization of Polyvalent 2-nm Gold Nanoparticle-Oligonucleotide Conjugates,” J. Am. Chem. Soc. 2008, 130, 5430-5431.
Jeon, Y.-M.; Heo, J.; Mirkin, C. A. “Amorphous Infinite Coordination Polymer Microparticles: A New Class of Selective Hydrogen Storage Materials,” Adv. Materials 2008, 20, 2105-2110.
Jang, J.-W.; Sanedrin, R.; Maspoch, D.; Hwang, S.; Fujigaya, T.; Jeon, Y.-M.; Vega, R.; Chen, X.; Mirkin, C. A. ”Electrically Biased Nanolithography with KOH Coated AFM Tips,” Nano Lett. 2008, 8, 1451-1455.
Jeon, Y.-M.; Kim, D.; Mirkin, C. A.; Golen, J. A.; Rheingold, A. L. ”Pyrene-Appended Fluorescent Tweezers Generated via the Weak-Link Approach,” Tetrahedron 2008,  in press.
Bae, Y.-S.; Farha, O. K.; Spokoynyy, A. M.; Mirkin, C. A.; Hupp, J. T.; Snurr, R. Q. “Carborane-Based Metal-Organic Frameworks as Highly Selective Sorbents for CO2 over Methane,” ChemComm 2008, in press
Giljohann, D. A.; Mirkin, C. A. “Tiny Tiles, Tiny Targets,“  Nature Biotechnology 2008, 26, 299-300.
Hill, H. D.; Macfarlane, R. J.; Senesi, A. J.; Lee, B.; Park, S. Y.; Mirkin, C. A. “Controlling the Lattice Parameters of Gold Nanoparticle FCC Crystals with Duplex DNA Linkers,“ Nano Lett. 2008, in press.
Lenhert, S.; Sun, P.; Wang, Y.; Fuchs, H.; Mirkin, C. A. “Massively Parallel Dip-Pen Nanolithography of Heterogeneous Supported Phospholipid Multilayer Patterns,” Small, 2007, 3, 71-75.
Xue, C.; Mirkin, C. A. “pH-Switchable Silver Nanoprism Growth Pathways,” Angew. Chem. Int. Ed. 2007, 46, 2036-2038.
Zhou, S.; Maspoch, D.; Wang, Y.; Mirkin, C. A.; Schatz, G. C. “Rings of Single-Walled Carbon Nanotubes: Molecular-Template Directed Assembly and Monte-Carlo Modeling,” Nano Letters, 2007, 7, 276-280.
Jeon, Y.-M.; Heo, J.; Mirkin, C. A. “Acid-Functionalized Dissymmetric Salen Ligands and Their Manganese (III) Complexes,” Tetrahedron Lett. 2007, 48, 2591-2595.
Salaita, K. S.; Wang, Y.; Mirkin, C. A. “Applications of Dip-Pen Nanolithography,” Nature Nanotech. 2007, 2, 145-155.
Jang, J.-W., Maspoch, D.; Fujigaya, T.; Mirkin, C. A. “A Molecular Eraser for Dip-Pen Nanolithography,” Small 2007, 3, 600-605.
Ulmann, P. A.; Brown, A. M.; Ovchinnikov, M. V.; Mirkin, C. A.; DiPasquale, A. G.; Rheingold, A. L. “Spontaneous Formation of Heteroligated PtII Complexes with Chelating Hemilabile Ligands,” Chemistry – A European Journal 2007, 13, 4529-4534.
Xu, X.; Han, M. S.; Mirkin, C. A. “A Gold Nanoparticle-Based, Real-Time Colorimetric Screening Method for Endonuclease Activity and Inhibition,” Angew. Chem. Int. Ed. 2007, 46, 3468-3470.
Lee, J.-S.; Han, M. S.; Mirkin, C. A. “Colorimetric Detection of Mercuric Ion (Hg2+) in Aqueous Media Using DNA-Functionalized Gold Nanoparticles,” Angew. Chem. Int. Ed. 2007, 46, 4093-4096.
Jeon, Y.-M.; Heo, J.; Mirkin, C. A. “Dynamic Interconversion of Amorphous Microparticles and Crystalline Rods in Salen-based Homochiral Infinite Coordination Polymers,” J. Am. Chem. Soc. 2007, 129, 7480-7481.
Masar, M. S. III; Gianneschi, N. C.; Oliveri, C. G.; Stern, C. L.; Nguyen, S. T.; Mirkin, C. A. “Allosterically Regulated Supramolecular Catalysis of Acyl Transfer Reactions for Signal Amplification and Detection of Small Molecules,” J. Am. Chem. Soc. 2007, 129, 10149-10158.
Heo, J.; Jeon, Y.-M.; Mirkin, C. A. “Reversible Interconversion of Homochiral Triangular Macrocycles and Helical Coordination Polymers,” J. Am. Chem. Soc. 2007, 129, 7712-7713.
Lytton-Jean, A. K. R.; Han, M. S.; Mirkin, C.A. “Microarray Detection of Duplex and Triplex DNA Binders with DNA-Modified Gold Nanoparticles,” Analytical Chem. 2007, 79, 6037-6041.
Vega, R. A.; Shen, C. K.-F.; Maspoch, D.; Robach, J. G.; Lamb, R. A.; Mirkin, C. A. “Monitoring Single Cell Infectivity from Virus Particle Nanoarrays Fabricated by Parallel Dip-Pen Nanolithography,” Small 2007, 3, 1482-1485.
Hurst, S. J.; Han, M. S.; Lytton-Jean, A. K. R.; Mirkin, C. A. “Screening the Sequence Selectivity of DNA-Binding Molecules Using a Gold Nanoparticle-based Colorimetric Approach,” Analytical Chemistry 2007, 79, 7201-7205.
Seferos, D. S.; Giljohann, D. A.; Rosi, N. L.; Mirkin, C. A. “Locked Nucleic Acid-Nanoparticle Conjugates,”ChemBioChem. 2007, 8, 1230-1232.
Xu, X.; Georganopoulou, D. G.; Hill, H. D.; Mirkin, C. A. “Homogeneous Detection of Nucleic Acids Based upon the Light Scattering Properties of Silver-Coated Nanoparticle Probes,” Analytical Chem. 2007, 79, 6650-6654.

Tang, S.; Zhao, J.; Storhoff, J. J.; Norris, P. I.; Little, R. F.; Yarchoan, R.; Stramer, S. L.; Patno, T.; Domanus, M.; Bernal, Y.; Dhar, A.; Mirkin, C. A.; Hewlett, I.

“Nanoparticle Based Biobarcode Amplification Assay (BCA) for Sensitive and Early Detection of Human Immunodeficiency Type 1 Capsid (p24) Antigen,” J. Aids 2007, 46, 231-237.

Lee, J.-S.; Lytton-Jean, A. K. R.; Hurst, S.; Mirkin, C. A. “Silver Nanoparticle Oligonucleotide Conjugates Based on Triple Cyclic Disulfide Moieties,” Nano Lett. 2007, 7, 2112-2115.

Kuwabara, J.; Stern, C. L.; Mirkin, C. A. “A Coordination Chemistry Approach to a Multieffector Enzyme Mimic,” J. Am. Chem. Soc. 2007, 129, 10074-10075.

Qin, L.; Banholzer, M. J.; Millstone, J. E.; Mirkin, C. A.  “Nanodisk Codes,“ Nano Lett.  2007, 7, 3849-3853.

Oliveri, C. G.; Heo, J.; Nguyen, S. T.; Mirkin, C. A.; Wawrzak, Z. “A Convergent Coordination Chemistry-Based Approach to Dissymmetric Macrocyclic Cofacial Porphyrin Complexes,” Inorganic Chem. 2007, 46, 7716-7718.

Xue, C.; Chen, X.; Hurst, S. J.; Mirkin, C. A. “Self-Assembled Monolayer Mediated Silica Coating of Silver Triangular Nanoprisms,” Adv. Mater. 2007, 19, 4071-4074.

Hill, H. D.; Vega, R. A.; Mirkin, C. A. “Non-Enzymatic Detection of Bacterial Genomic DNA Using the Bio-Barcode Assay,“ Analytical Chem. 2007, 79, 9218-9223.

Xue, C.; Millstone, J. E.; Mirkin, C. A. “Plasmon-Driven Synthesis of Triangular Nanoprisms from Isotropic Gold Cores,” Angew. Chem. Int. Ed. 2007, 46, 8436-8439.

Giljohann, D. A.; Seferos, D. S.; Patel, P. C.; Millstone, J. E.; Rosi, N. L.; Mirkin, C. A. “Oligonucleotide Loading Determines Cellular Uptake of DNA-Modified Nanoparticles,“ Nano Lett. 2007, 7, 3818-3821.
Seferos, D. S.; Giljohann, D. A.; Hill, H. D.; Prigodich, A. E.; Mirkin, C. A. “Nanoflares: Probes for Transfection, RNA Visualization, and Detection of Transcripts in Living Cells,” J. Am. Chem. Soc. 2007, 129, 15477-15479.

Farha, O. K.; Spokoyny, A. M.; Mulfort, K. L.; Hawthorne, M. F.; Mirkin, C. A.; Hupp, J. T. “Synthesis and Hydrogen Sorption Properties of Carborane-Based Metal-Organic Framework  Materials,” J. Am. Chem. Soc. 2007, 129, 12680-12681.

Mirkin, C. A. “The Power of the Pen: Development of Massively Parallel Dip-Pen Nanolithography,” ACS Nano 2007, 1, 79-83.

Qin, L.; Banholzer, M. J.; Xu, X.; Huang, L.; Mirkin, C. A. “Rational Design and Synthesis of Catalytically Driven Nano Rotors,” J. Am. Chem. Soc. 2007, 129, 14870-14871.

Yoon, H. J.; Heo, J.; Mirkin, C. A. “Allosteric Regulation of Phosphate Diester Transesterification Based Upon a Dinuclear Zinc Catalyst Assembled via the Weak-Link Approach,” J. Am. Chem. Soc. 2007, 129, 14182-14183.

[ Last edited by kinmer on 2009-1-1 at 11:47 ]
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42楼2009-01-01 11:46:37
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stred

至尊木虫 (文坛精英)

蓝翔技校优秀毕业生

1

kqy920(金币+0):重复了,请看清前面的再发贴!
【姓      名】:范守善

【研究方向】:纳米碳材料

【个人简历】:

范守善,材料物理和化学专家。 生于山西晋城。1970年毕业于清华大学,1973-1975年在清华大学固体物理研究班专修,1981年在清华大学获理学硕士学位。现任清华大学物理系教授、凝聚态物理研究所所长、清华大学材料科学与工程研究院副院长。
      长期从事新型功能材料的制备与物性研究。在碳纳米管的控制合成和生长机理研究方面制备出碳纳米管阵列、连续碳纳米管线,并用于构筑宏观尺度的碳纳米管结构。利用碳同位素标记的方法揭示了碳纳米管的生长机理。发展出了几种制备一维半导体纳米线及其阵列的新方法,制备出一系列化合物半导体纳米线。利用脉冲激光沉积制备出一系列氧化物、氮化物和高温超导薄膜材料。从实验上观测到磁通线穿透高温铜氧化物超导体的路径,这一结果对研究高温超导机理和提高临界电流有重要意义。
      2003年当选为中国科学院院士
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耕读苍冥水静待老山秋
43楼2009-01-04 23:19:14
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todayandy123

至尊木虫 (正式写手)

1

一直想找这样的资料,谢谢楼主!!!
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samalanqi

木虫 (小有名气)
★ ★ ★ ★ ★
kqy920(金币+5,VIP+0):谢谢分享!欢迎常来!
俞书宏教授
男, 1967年8月生, 中国科学技术大学教授,博士生导师, 中国科学院“引进海外杰出人才”, 国家杰出青年基金获得者。
【个人简历】:1988年7月获合肥工业大学无机专业学士学位,1991年5月获上海化学工业研究院硕士学位, 1998年10月获中国科学技术大学化学系无机化学专业博士学位。 1999年—2001年获日本学术振兴会(JSPS)资助(任日本学术振兴会研究员),在日本东京工业大学材料与结构实验室工作。2001年—2002年获德国洪堡基金会(AvH)资助(任洪堡外国科学家研究员),在德国马普学会胶体与界面研究所工作。2002年起任中国科技大学教授,博士生导师。2002年入选中国科学院“引进海外杰出人才”, 2003年获得国家杰出青年基金, 2006年入选教育部“长江学者奖励计划”长江特聘教授。
   现任合肥微尺度物质科学国家实验室纳米材料与化学研究部执行主任、中国科技大学化学与材料科学学院 副院长(分管科研), 院学术委员会副主任, 兼任国家重点学科无机化学博士点负责人,中国科学院-德国马普学会伙伴小组组长。担任Elsevier国际期刊Materials Research Bulletin副编辑、Current Nanoscience、《科学通报》、《无机化学学报》等刊物的编委和特邀编辑。
【主要成果】: 在中国科学院“引进国外杰出人才”计划、国家杰出青年基金、国家自然科学基金重点基金、中德伙伴小组及国家基金委创新群体等项目的支持下,在化学法合成无机纳米材料、模拟生物矿化与仿生合成、复杂无机结构功能材料的构筑原理及性能研究等领域取得了具有显著创新性的科研成果。自1998年以来, 在国际期刊Nature Materials, Angew. Chem. Int. Ed., J. Am. Chem. Soc., Adv. Mater., Nano Letters等上发表SCI检索论文168篇(第一作者和通讯作者论文145篇,其中IF>3的SCI论文117篇,IF>6的SCI论文35篇)。被他人引用2870余次,第一作者和通讯作者论文被SCI他人引用达2322余次。受邀在Adv. Funct. Mater., Top. Curr. Chem., J. Mater. Chem., Curr. Opin. Colloid Interface Sci., Dalton Trans., MRS. Bull.等国际期刊上发表综述论文和特征文章8篇,受邀在九部英文专著中各撰写一章。有关复杂无机超结构材料的构筑和设计研究工作受到英国《自然》杂志的“研究亮点”栏目和《美国化学工程新闻》“科学聚焦”栏目的点评。发表在《自然?材料学》和《应用物理快报》上的论文分别被《自然?中国》选为来自中国大陆和香港的突出科学研究成果并作为研究亮点报道;有15篇论文被美国化学会、英国皇家化学会、德国Wiley等期刊评为封面论文、热点论文等。
   目前承担国家自然科学基金委重点基金、中国科学院-德国马普学会伙伴小组计划等项目。
   现从事学科领域为无机化学、材料化学、材料化学与物理、生物材料等。研究兴趣包括无机合成与制备、模拟生物矿化与仿生科学,功能纳米材料与仿生复合材料的制备与应用,光、电、磁微纳器件构筑,用于组织工程的特种生物材料及成像技术等。
【近期学术论文】:
2009
1. Qiao Zhang, Shu-Juan Liu, Shu-Hong Yu*, Recent Advances in Oriented Attachment Growth and Synthesis of Functional Materials: Concept, Evidence, Mechanism, and Its Future, J. Mater. Chem.. 2009, 19, Issue 2,Invited Feature Article. Online. Inside Cover.
2. Hai-Wei Liang, Shuo Liu, Jun-Yan Gong, Shang-Bing Wang, Lei Wang, Shu-Hong Yu*, Ultrathin Te Nanowires: An Excellent Platform for Controlled Synthesis of Ultrathin Platinum and Palladium Nanowires/Nanotubes with Very High Aspect Ratio,Adv. Mater.. 2009, 21, 10.1002/adma.200802286. In press.
3. Weihong Xu, Shu-Hong Yu*, Conducting Performance of Individual Ag@C Coaxial Nanocable: Ideal Building Blocks for Interconnects in Nanoscale Devices, Small . 2009, 5, smll.200801236, in press.
4. Huai-Ping Cong, Shu-Hong Yu*, Self-assembly of functionalized inorganic-organic hybrids, Curr. Opin. Colloid Interface Sci. . 2009, Invited Review, Online.
5. Jian-Hua Zhu, Shu-Hong Yu*, An-Wu Xu, Helmut C?lfen, Biomimetic Mineralization of Double-Stranded and Cylindrical Helical BaCO3 Nanofibres, Chem. Commun.. 2008, in press..
6. Yu-Xue Zhou, Hong-Bin Yao, Qiao Zhang, Jun-Yan Gong, Shu-Juan Liu, Shu-Hong Yu*, Hierarchical FeWO4 Microcrystals: Solvothermal Synthesis, and Their Photocatalytic and Magnetic Properties, Inorg. Chem.. 2008, Invited review.
7. Jun-Yan Gong, Shi-Rui Guo, Hai-Sheng Qian, Wei-Hong Xu, Shu-Hong Yu*, A general approach for synthesis of a family of functional inorganic nanotubes using highly active carbonaceous nanofibers as templates, J. Mater. Chem. . 2009, 19, Online. Theme issue of nanotubes. Invited.
8. Shu-Juan Liu, Jun-Yan Gong, Bo Hu, Shu-Hong Yu*, Mesocrystals of Rutile TiO2: Mesoscale Transformation, Crystallization and Growth by a Biologic Molecules-Assisted Hydrothermal Process, Crystal Growth Design. 2009, in press.
9. Huai-Ping Cong, Shu-Hong Yu*, Shape Control of Cobalt Carbonate Particles by Hydrothermal Process in a Mixed Solvent: An Efficient Precursor to Nanoporous Cobalt Oxide Architectures and Their Sensing Property, Crystal Growth Design . 2008,Online
10. Jian-Hua Zhu, Ji-Ming Song, Wei-Qing Zhang, Jin-Xia Shi, Shu-Hong Yu*, Mineralization for Micropatterned Growth of Carbonate Nanofibers, CrystEng. Commun.. 2009,Invited. In press.
11. Shu-Juan Liu, Xiao-Xi Wu, Bo Hu, Jun-Yan Gong, Shu-Hong Yu*, Novel anatase TiO2 boxes and urchin-like flowers assembled by hollow tubes: D,L-malic acid-assisted hydrothermal synthesis, growth mechanism and photocatalytic properties, Crystal Growth & Design. 2009,in press.
2008
12. Yongjie Zhan, Shu-Hong Yu*, Necklace-Like Cu@cross-linked poly(vinyl alcohol) (PVA) core-shell Microncables, J. Am. Chem. Soc.. 2008, 130(17), 5650-5651.
13. Ming-Jun Hu, Yang Lu, Sen Zhang, Shi-Rui Guo, Bin Lin, Meng Zhang, Shu-Hong Yu*, High Yield Synthesis of Bracelet-like Hydrophilic Ni-Co Magnetic Alloy Flux-closure Nanorings, J. Am. Chem. Soc. . 2008,130(35), 11606 – 11607.
14. Weitang Yao, Shu-Hong Yu*, Synthesis of Semiconducting Functional Materials in Solution: From II-VI Semiconductor to Inorganic/organic Hybrid Semiconductor Nanomarerials, Adv. Funct. Mater.. 2008, 18, 3357-3366. Feature Article. Inside Cover. .
15. Bo Hu, Shu-Hong Yu*, Kan Wang, Lei Liu, Xue Wei Xu, Functional Carbonaceous Materials from Hydrothermal Carbonization of Biomass: An Effective Chemical Process, Dalton Trans.. 2008, (40), 5414-5423.Invited Perspective, Cover. Highlighted by RSC. .
16. Shi-Rui Guo, Jun-Yan Gong, Peng Jiang, Mian Wu, Shu-Hong Yu*, Novel biocompatible and luminescent silver@phenol formaldehyde resin (PFR) core/shell nanospheres: Large scale synthesis and application for in vivo bio-imaging, Adv. Funct. Mater.. 2008, 18(6), 872-879. Most-assessed. .
17. Huai-Ping Cong, Shu-Hong Yu*, Synthesis of Microraft-shaped Zinc-Phenylalanine Complexes and Zinc-Phenylalanine/dye Hybrid Bundles with New Optical Properties, Adv. Funct. Mater. . 2008, 18(2), 195-202.
18. Jun-Jie Wang, Jun Jiang, Bo Hu, Shu-Hong Yu*, Uniformly-Shaped Poly (p-phenylenediamine) (PpPD) Microparticles: Shape Control Synthesis and Their Potential Application in Removal of Lead Irons in Water, Adv. Funct. Mater. 2008, 18(7), 1105-1111. Adv. Funct. Mater. . 2008, 18(7), 1105-1111.
19. Weihong Xu, Jiming Song, Lian Sun, Jinlong Yang, Wenping Hu, Zhuoyu Ji, Shu-Hong Yu*, Structural, Electrical, and Photoconductive Properties of Individual Single Crystalline Tellurium Nanotube Synthesized by a Chemical Route: Doping Effects on Its Electrical Structures, Small . 2008, 4(7), 888-893. Most accessed articles..
20. Jie Chen, Chunyan Wu, Jinping Tian, Wenjie Li, Shu-Hong Yu*, and Yangchao Tian*, Three-dimensional imaging of nanoscopic superstructures in a complex concaved cuboctahedron copper sulfide crystal by x-ray nanotomography. Appl. Phys. Lett. . 2008, 92, 233104-233106. DOI:10.1063/1.2943337. Virtual Journal of Nanoscale Science and Technology. Highlighted by Nature China with title “Nanotomography: Crystal clear”. http://www.nature.com/nchina/200 ... china.2008.147.html .
21. An-Wu Xu,* Markus Antonietti, Shu-Hong Yu, and Helmut C?lfen*, Polymer-Mediated Mineralization and Self-Similar Mesoscale-Organized Calcium Carbonate with Unusual Superstructures, Adv. Mater. . 2008,20, 1333-1338.
22. Zheng-An Zang, Hong-Bin Yao, Yu-Xue Zhou, Wei-Tang Yao, Shu-Hong Yu*, Synthesis and Magnetic Properties of New [Fe18S25](TETAH)14 (TETAH = Protonated Triethylenetetramine) Nanoribbons: An Efficient Precursor to Fe7S8 Nanowires and Porous Fe2O3 Nanorods, Chem. Mater.. 2008, 20(14), 4749-4755.
23. Shu-Juan Liu, Hai-Yang Cheng, Feng-Yu Zhao, Shu-Hong Yu*, Controllable synthesis of novel VSB-5 microspheres and microrods: Growth mechanism and elective hydrogenation catalytic property, Chem. Eur. J.. 2008, 14(13), 4074-4081.
24. Bo Hu, Shao-Feng Chen, Shu-Juan Liu, Qing-Song Wu, Wei-Tang Yao, Shu-Hong Yu*, Controllable Synthesis of Zinc-Substituted ?- and β-Nickel Hydroxide Nanostructures and Their Collective Intrinsic Properties, Chem. Eur. J.. 2008,14, 8928-8938.
25. Yi Ding, Yong Wan, Yu-Lin Min, Wei Zhang, Shu-Hong Yu*, General Synthesis and Phase Control of Metal Molybdate Hydrates MMoO4 ?nH2O (M = Co, Ni, Mn, n = 0, 3/4, 1) Nano/Microcrystals by Hydrothermal Approach: Magnetic, Photocatalytic and Electrochemical Properties, Inorg. Chem.. 2008, 47, 7813-7823.
26. Yong Wan, Yu-Lin Min, Shu-Hong Yu*, Synthesis of Carbon-Silica Encapsulated Core-shell Spheres: Their Templating for Other Unique Coreshell Structures and Applications in in-situ Loading Noble-Metal Nanoparticles, Langmuir. 2008,24(9), 5024-5028.
27. Hai-Sheng Qian, Shu-Hong Yu*, Can t-Te Nanowires Really Give Blue-Violet Emission ?: Reply on Comment on High-Quality Luminescent Tellurium Nanowires of Several Nanometers in Diameter and High Aspect Ratio Synthesized by a Poly (Vinyl Pyrrolidone)-Assisted Hydrothermal Process, Langmuir. 2008, 24(15), 8393-8394.
28. Yong-Jie Zhan, Shu-Hong Yu*, Direct Synthesis of Carbon Sub-microtubes by Combination of a Solvothermal Route and a Succeeding Self-assembly Process, J. Phys. Chem. C. 2008, 112(11), 4024-4028. Letter..
29. Yong Wan, Shu-Hong Yu*, Polyelectrolyte Controlled Large-Scale Synthesis of Hollow Silica Spheres with Tunable Size and Wall Thickness”, J. Phys. Chem. C . 2008, 112(10), 3641-3647.
30. Bo Hu, Shang-Bing Wang, Kan Wang, Meng Zhang, Shu-Hong Yu*, Microwave Assisted Rapid Facile “Green” Synthesis of Uniform Silver Nanoparticles: Self-Assembly into Multilayered Films and Optical Property, J. Phys. Chem. C. 2008, 112(30), 11169-11174.
31. Yu-Xue Zhou, Qiao Zhang, Jun-Yan Gong, Shu-Hong Yu*, Surfactant-assisted Hydrothermal Synthesis and Magnetic Properties of Urchin-like MnWO4 Microspheres and Nanorods, J. Phys. Chem. C. 2008, 112(35), 13383-13389.
32. Xiaohui Guo, An-Wu Xu, Shu-Hong Yu*, Crystallization of Calcium Carbonate Mineral with Hierarchical Structures in DMF Solution under Control of Poly (ethylene glycol)-b-poly(L-glutamic acid): Effects of Crystallization Temperature and Polymer Concentration, Crystal Growth Design . 2008, 8(4), 1233-1242.
33. Jiming Song, Yunzhi Lin, Yongjie Zhan, Yangchao Tian, Gang Liu, Shu-Hong Yu*, Superlong High-Quality Tellurium Nanotubes: Synthesis, Characterization, and Optical Property, Crystal Growth Design. 2008, 8(6), 1902-1908.
34. Yang Xu, Jun Jiang, Yang Lu, Ru-Jie Sun, Jiming Song, Lei Ren, Shu-Hong Yu*, Facile Surfactant-free Synthesis of Water-Dispersible Willow-Leaf-Like Carbonate Apatite Nanorods in Ethanol/Water Mixed Solution and Their Cytotoxicity, Crystal Growth & Design . 2008,8(10); 3822-3828.
35. Chun-Liu Fang, Kun Qian, Jianhua Zhu, Shangbin Wang, Xiaoxuan Lv, Shu-Hong Yu*, Monodisperse α-Fe2O3@SiO2@Au Core/Shell Nanocomposite Spheres: Synthesis, Characterization, and Property, Nanotechnology. 2008, 19, 125601-125607. Most accessed article..
36. Ming-Jun Hu, Bin Lin, Shu-Hong Yu*, Magnetic-Field Induced Solvothermal Synthesis of Uniform One-Dimensional Assembly of NixCo1-x Alloy Microparticles”, Nano Research. 2008, 1(4), 303-312.
37. Wei-Qing Zhang, Yang Lu, Tie-Kai Zhang, Weiping Xu, Meng Zhang, Shu-Hong Yu*, Controlled Synthesis and Biocompatibility of Water-soluble ZnO Nanorods/Au Nanocomposites with Tunable UV and Visible Emission Intensity, Phys. Chem. C. 2008, 112(50), 19872-19877.
38. Sheng-Liang Zhong, Ji-Ming Song, Sen Zhang, Hongbin Yao, An-Wu Xu, Shu-Hong Yu*, Hematite Microrings: Template-free Synthesis and Formation Mechanism, J. Phys. Chem. C. 2008, 112(50), 19916-19921.

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qiutian

铜虫 (小有名气)

补充张立德先生

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【姓      名】:张立德

【研究方向】:  纳米材料与纳米结构
张立德先生前面已经有人讲了,我补充两句。
作为首席科学家领导的国家973项目“纳米材料和纳米结构”
项目研究团队2008年被国家科技部授予“973计划优秀研究团队”称号
科学中国人2007年度人物
汤姆森卓越研究奖
按照新出台的H因子衡量科技论文水平的话,张立德先生在全国应该也是名列前茅的。

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taijun_2008

木虫 (著名写手)

Alchemist

Marie-Paule PILENI

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【姓    名】:Professor Marie-Paule PILENI

【研究方向】:Physical Collective Properties due to self organization of nanocrystals, Control of the reactivity in colloidal systems

【个人简历】:Professor Pileni’s research has been highly interdisciplinary in over all of her scientific career. Her accomplishments have impacted the broad areas of photochemistry, photobiology, solar energy conversion, nanomaterials, colloidal assembly and self-assembly. Most significantly, she has demonstrated an unprecedented control of chemical reactivity in colloidal systems and established novel physical principles, which govern the assembly of nanocrystals into supramolecular structures of great potential applicability. Professor Pileni’s accomplishments have been recognized by the increasing frequency of invitations to be a plenary lecturer at American, Japanese and other international scientific meetings, symposia and congresses.

International awards have recognized the importance of her contributions to these fields. She received the Langmuir prize of the American Chemical Society (2000), the prize of the Colloid Division of the Japanese Chemical Society (2001), the prize of the Alexander von Humboldt foundation in Germany (2003), the Descartes-Huygens prize in the Netherlands (2004) and the Blaise Pascal Medal from the European Academy (2005). In 2002, she was given the degree of Doctor Honoris Causa of the University of Chalmers at Göteborg (Sweden). She was made member of European Academy of Sciences (2003) and of the Royal Academy of Sciences and Technology of Sweden (2004). She was awarded the prize of the most cited French scientist, from 1981 to 1998, in 2000 by the Institute of Scientific Information.

In all her career, she has paid special attention to the promotion of women in research. Since 1988, she has trained 19 women and 23 men. Currently her laboratory has 18 members with 50% of men and women. According to Science Watch (July-August 2003) she is the 25th highest cited scientist on nanotechnology with 9.64 citation per paper.

【论文(2008)】:[173] Shape-Controlled Platinum Nanocubes and Their Assembly into Two-Dimensional and Three-Dimensional Superlattices. A. Demortières, P. Launois, N. Goubet, P.A. Albouy and C. Petit in press (J. Chem. Phys. C)

[172] Motif Transfer: Down to 3 nm in Resolution Using Individual Nanocrystals.
Dorothée Ingert and Marie-Paule Pileni in press (Adv. Mat.)

[171] Vibration Dynamics of Supra-Crystals of Cobalt Nanocrystals Studied With Femtosecond Laser Pulses.
Isabelle Lisiecki, Valérie Halté, Christophe Petit, Marie-Paule Pileni and Jean-Yves Bigot Adv. Mat. 20, 1 (2008)

[170] Probing atomic ordering and multiple twinning in metal nanocrystals through their vibrations. H. Portales, N. Goubet, L. Saviot, S. Adichtchev, D.B. Murray, A. Mermet, E. Duval and M.P. Pileni Proc. Natl. Acad. Sci. USA 105, 14784 (2008)

[169] Self-organization of magnetic nanoparticles: a Monte Carlo study. J. Richardi, M.P. Pileni and J.J. Weis Phys Rev E Stat Nonlin Soft Matter Phys 77, 061510 (2008)

[168] Self-assembly of inorganic magnetic nanocrystals: a new physics emerges. M.P. Pileni Journal of Physics D: Applied Physics 134002 (2008)

[167] Cracks in magnetic nanocrystal films: Do directional and isotropic crack patterns follow the same scaling law? A.T. Ngo, J. Richardi and M.P. Pileni Nano Letters 8, 2485-2489 (2008)

[166] Use of reverse micelles to make either spherical or worm-like palladium nanocrystals: Influence of stabilizing agent on nanocrystal shape. K. Naoe, C. Petit and M.P. Pileni Langmuir 24, 2792-2798 (2008)

[165] Quantitative absorption spectroscopy of a single gold nanorod. O.L. Muskens, G. Bachelier, N. Del Fatti, F. Vallée, A. Brioude, X.C. Jiang and M.P. Pileni J. Phys. Chem. C 112, 8917-8921 (2008)

[164] 2D self-organization of core/shell Cohcp/Co nanocrystals. I. Lisiecki, M. Walls, D. Parker and M.P. Pileni Langmuir 24, 4295-4299 (2008)

[163] Tuning of solid phase in supracrystals made of silver nanocrystals. A.I. Henry, A. Courty, M.P. Pileni, P.A. Albouy and J. Israelachvili Nano Letters 8, 2000-2005 (2008)

[162] How do self-ordered silver nanocrystals influence their growth into triangular single crystals? A.I. Henry, A. Courty, N. Goubet and M.P. Pileni J. Phys. Chem. C 112, 48-52 (2008)

[161] Difference between the magnetic properties of the magnetotactic bacteria and those of the extracted magnetosomes: Influence of the distance between the chains of magnetosomes.
E. Alphandery, A.T. Ngo, C. Lefevre, I. Lisiecki, L.F. Wu and M.P. Pileni J. Phys. Chem. C 112, 12304-12309 (2008)


【联系方式】:Phone : 33 (0)1 44 27 25 16
Fax : 33 (0)1 44 27 25 15
E-mail : pileni@sri.jussieu.fr

[ Last edited by taijun_2008 on 2009-1-7 at 14:08 ]
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47楼2009-01-07 13:34:29
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fanhbu

木虫 (著名写手)
★ ★ ★ ★
kqy920(金币+4):谢谢分享!欢迎常来!
【姓      名】:Wilson Ho STM绝对的大牛
http://www.physics.uci.edu/~wilsonho/wilsonho.html
Mailing Address:  
Department of Physics and Astronomy
4129 Frederick Reines Hall  
University of California, Irvine, CA  92697-4575
Telephone: (949) 824-5234
Fax: (949) 824-2174



Professor Ho received B.S. and M.S. degrees in chemistry from the California Institute of Technology in 1975 and his Ph.D. in physics from the University of Pennsylvania in 1979. He spent a year at the AT&T Bell Laboratories as a Member of the Technical Staff and was on the faculty of Cornell University prior to joining the UCI faculty in 2000.


【研究方向】:
Our research focuses on nanoscale chemical and physical phenomena with an emphasis on probing the basic properties of single atoms and molecules in their nono-environment on solid surfaces. The goal is to obtain detailed descriptions of single atoms and molecules which form the basis for understanding chemical and physical processes at surfaces and properties of nanostructured condensed matter and molecular materials.

The understanding of matter and its interactions with the surrounding at the atomic and molecular level is the central theme of our research program. The ability to control chemistry at the level of individual atoms and molecules underpins the way they interact and use the available energy to affect chemical transformation. The study of magnetism down to single atoms allows the understanding of how the electron spins play a role in chemical and physical processes.

The scanning tunneling microscope (STM) is a tool which not only allows us literally to see individual atoms and molecules but also to manipulate and spectroscopically characterize them. It is an all-purpose tool and is in effect a nanoreactor carrying out reactions with atoms and molecules in the nanocavity of the tunnel junction. Since the coupling of electrons to the nuclear motions provides the driving force for chemical transformation, the STM with its tunneling electrons can be tuned to induce atomic and molecular motions and to dissociate and form chemical bonds.

Tunneling electrons can be spin polarized. The STM can be used to probe magnetism and the effect of magnetic impurity on superconductivity and other solid state phenomena associated with the electron spin.
Selected Publications
Single Molecule Chemistry by Tunneling Electrons. Physical Review Letters 1997, 78, 4410. B.C. Stipe, M.A. Rezaei, W. Ho, S. Gao, M. Persson, and B.I. Lundqvist.

Inducing and Viewing the Rotational Motion of a Single Molecule. Science 1998, 279, 1907. B.C. Stipe, M.A. Rezaei, and W. Ho.

Single-Molecule Vibrational Spectroscopy and Microscopy. Science 1998, 280, 1732. B.C. Stipe, M.A. Rezaei, and W. Ho.

Coupling of Vibrational Excitation to the Rotational Motion of a Single Adsorbed Molecule. Physical Review Letters 1998, 81, 1263. B.C. Stipe, M.A. Rezaei, and W. Ho.

Localization of Inelastic Tunneling and the Determination of Atomic-Scale Structure with Chemical Sensitivity. Physical Review Letters 1999, 82, 1724. B.C. Stipe, M.A. Rezaei, and W. Ho.

Single Bond Formation and Characterization with a Scanning Tunneling Microscope. Science 1999, 286, 1719. H.J. Lee and W. Ho.

Control and Characterization of a Multistep Unimolecular Reaction. Physical Review Letters 2000, 84, 1527. L.J. Lauhon and W. Ho.

Electronic Resonance and Symmetry in Single-Molecule Inelastic Electron Tunneling. Physical Review Letters 2000, 85, 1915. J.R. Hahn, H.J. Lee, and W. Ho.

Vibrationally-Mediated Negative Defferential Resistance in a Single Molecule. Physical Review Letters 2000, 85, 1918. J. Gaudioso, L.J. Lauhon, and W. Ho.

Direct Observation of the Quantum Tunneling of Single Hydrogen Atoms with a Scanning Tunneling Microscope. Physical Review Letters 2000, 85, 4566. L.J. Lauhon and W. Ho
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fanhbu

木虫 (著名写手)
★ ★ ★ ★
kqy920(金币+4):谢谢分享!欢迎常来!
【姓      名】:George M. Whitesides  绝对的化学界大牛 夏幼男博士老板 文章总引用数位居化学界前5
http://gmwgroup.harvard.edu/
【研究方向】:
Surface Science
Microcontact Printing of Self-Assembled Monolayers
Electrochemical Desorption of Self-Assembled Monolayers
Surface Analytical Techniques


Select Publications

1. Laibinis, P. E. et al. "Orthogonal self-assembled monolayers: alkanethiols on gold and alkane carboxylic acids on alumina." Science (1989), 245(4920), 845-7.

2. Abbott, N. L., Folkers, J. P. and Whitesides, G. M. "Manipulation of the wettability of surfaces on the 0.1- to 1-micrometer scale through micromachining and molecular self-assembly." Science (1992), 257(5075), 1380-2.

3. Kumar, A., Biebuyck, H. A. and Whitesides, G. M. "Patterning Self-Assembled Monolayers: Applications in Materials Science." Langmuir (1994), 10(5), 1498-511.

4. Wilbur, J. L. et al. "Microcontact printing of self-assembled monolayers: applications in microfabrication." Nanotechnology (1996), 7(4), 452-457.

5. Kane, R. S. et al. "Patterning proteins and cells using soft lithography." Biomaterials (1999), 20(23/24), 2363-2376.

6. Jiang, X. et al. "Electrochemical desorption of self-assembled monolayers noninvasively releases patterned cells from geometrical confinements." JACS (2003), 125, 2366-2367.
Title: FORMATION OF MONOLAYER FILMS BY THE SPONTANEOUS ASSEMBLY OF ORGANIC THIOLS FROM SOLUTION ONTO GOLD
Author(s): BAIN CD, TROUGHTON EB, TAO YT, et al.
Source: JOURNAL OF THE AMERICAN CHEMICAL SOCIETY   Volume: 111   Issue: 1   Pages: 321-335   Published: JAN 4 1989
Times Cited: 2,385
  
2.  Title: MOLECULAR SELF-ASSEMBLY AND NANOCHEMISTRY - A CHEMICAL STRATEGY FOR THE SYNTHESIS OF NANOSTRUCTURES
Author(s): WHITESIDES GM, MATHIAS JP, SETO CT
Source: SCIENCE   Volume: 254   Issue: 5036   Pages: 1312-1319   Published: NOV 29 1991
Times Cited: 1,600
  
3.  Title: Geometric control of cell life and death
Author(s): Chen CS, Mrksich M, Huang S, et al.
Source: SCIENCE   Volume: 276   Issue: 5317   Pages: 1425-1428   Published: MAY 30 1997
Times Cited: 1,442
  
4.  Title: Rapid prototyping of microfluidic systems in poly(dimethylsiloxane)
Author(s): Duffy DC, McDonald JC, Schueller OJA, et al.
Source: ANALYTICAL CHEMISTRY   Volume: 70   Issue: 23   Pages: 4974-4984   Published: DEC 1 1998
Times Cited: 1,236
  
5.  Title: COMPARISON OF THE STRUCTURES AND WETTING PROPERTIES OF SELF-ASSEMBLED MONOLAYERS OF NORMAL-ALKANETHIOLS ON THE COINAGE METAL-SURFACES, CU, AG, AU
Author(s): LAIBINIS PE, WHITESIDES GM, ALLARA DL, et al.
Source: JOURNAL OF THE AMERICAN CHEMICAL SOCIETY   Volume: 113   Issue: 19   Pages: 7152-7167   Published: SEP 11 1991
Times Cited: 1,107
  
6.  Title: Soft lithography
Author(s): Xia YN, Whitesides GM
Source: ANNUAL REVIEW OF MATERIALS SCIENCE   Volume: 28   Pages: 153-184   Published: 1998
Times Cited: 962

7.  Title: Self-assembly at all scales
Author(s): Whitesides GM, Grzybowski B
Source: SCIENCE   Volume: 295   Issue: 5564   Pages: 2418-2421   Published: MAR 29 2002
Times Cited: 949
  
8.  Title: Self-assembled monolayers of thiolates on metals as a form of nanotechnology
Author(s): Love JC, Estroff LA, Kriebel JK, et al.
Source: CHEMICAL REVIEWS   Volume: 105   Issue: 4   Pages: 1103-1169   Published: APR 2005
Times Cited: 907
  
9.  Title: FEATURES OF GOLD HAVING MICROMETER TO CENTIMETER DIMENSIONS CAN BE FORMED THROUGH A COMBINATION OF STAMPING WITH AN ELASTOMERIC STAMP AND AN ALKANETHIOL INK FOLLOWED BY CHEMICAL ETCHING
Author(s): KUMAR A, WHITESIDES GM
Source: APPLIED PHYSICS LETTERS   Volume: 63   Issue: 14   Pages: 2002-2004   Published: OCT 4 1993
Times Cited: 853
  
10.  Title: SELF-ASSEMBLED ORGANIC MONOLAYERS - MODEL SYSTEMS FOR STUDYING ADSORPTION OF PROTEINS AT SURFACES
Author(s): PRIME KL, WHITESIDES GM
Source: SCIENCE   Volume: 252   Issue: 5009   Pages: 1164-1167   Published: MAY 24 1991
Times Cited: 853

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lylpop

木虫 (著名写手)

1

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【姓名】赵东元

【简介】
1 、 教 育 状 况:

1980 年 -- 1984 年, 吉林大学化学系无机化学专业,获得理学学士学位.

1984 年 -- 1987 年, 吉林大学化学系,获得理学硕士学位。

1987 年 -- 1990 年, 中国科学院大连化学物理研究所催化国家开放实验室和吉林大学化学系获得理学博士学位。导师 : 郭燮贤 院士 和 徐如人 院士


2 、工 作 经 历:

1990 -- 1991: 沈阳化工学院精细化工系讲师

1991 -- 1993: 沈阳化工学院精细化工系副教授

1993 -- 1993: 加拿大里贾纳大学 (University of Regina) 化学系 访问学者

导师: D. G. Lee 教授

1993 -- 1995: 以色列魏兹曼科学院 (The Weizmann Institute of Science) 化学物理系

博士后,导师: Daniella Goldfarb 教授

1996 -- 1997: 美国休斯顿大学 (University of Houston) 化学系博士后,

导师: Prof. Larry Kevan

1997.1 -- 1998.12: 美国加州大学圣芭芭拉分校 (University of California at Santa Barbara) 材料系和化学系材料研究室博士后,导师: Professor Galen D. Stucky

1998.12 -- 现 在 : 上海复旦大学化学系教授,博士生导师

3 、获奖情况:

2006 复旦大学 “ 优秀博士后 ” 导师

2006 全国 “ 优秀博士论文 ” 导师

2006 第五届全国五好文明家庭标兵户

2005 首届复旦大学 “ 研究生心目中的好导师 ”

2005 中国科学技术协会第三届 “ 全国优秀科技工作者 ”

2004 复旦大学 “ 优秀研究生导师 ” 称号

2004 复旦大学 “ 复华奖教金 SCI 论文特别奖 ”

2004 复旦大学 “ 复华奖教金优秀研究生导师奖 ”

2004 复旦大学 “ 复华奖教金 SCI 论文集体奖 ”

2004 国家自然科学二等奖 “ 有序排列的纳米多孔材料的组装合成与功能化 ”

2004 全国 “ 优秀博士论文 ” 导师

2004 中国科协第八届 “ 中国青年科技奖 ”

2003 复旦大学 “ 复华 ” 化学学科奖教金一等奖

2003 “ 上海市劳动模范 ” 称号

2003 复旦大学 “ 优秀研究生导师 ” 称号

2002 上海市自然科学牡丹奖

2002 上海市科学技术进步一等奖 ( 第一完成人 )

2002 中科院沈阳金属研究材料科学 “ 李薰 ” 讲座奖

2002 首届上海青年科技英才奖

2002 复旦大学 “ 复华 ” 论文贡献奖

2002 复旦大学 “ 复华 ” 专利发明一等奖

2001 教育部 2001 年享受政府特殊津贴

2001 复旦大学 “ 复华 ” 化学学科奖教金一等奖

2000 教育部陈香梅教育基金第二届优秀教师奖

2000 教育部 “ 长江计划 ” 国家特聘教授称号

2000 国家基金委 “ 杰出青年 ” 称号

1999 国家教育部 “ 跨世纪 ” 人才称号

1999 上海市 “ 优秀青年科技学者 ” 人才基金

1998 美国化学会 1998 年度最佳博士后奖

(American Chemical Soci ety Distinguish Post-doctoral Award )。

1993 -- 1995 以色列 Weizmann Institute 的 the Feiberg Post-doctoral Fellowship 。

4 、学术兼职:

国际沸石协会( IZA )理事

国际介观结构材料协会( IMMA )理事、秘书长( 2002 - 2006 )

国际介观结构材料协会( IMMA )理事( 2006 - 2008 )

国际沸石学协会( IZA )介孔分子筛分委会理事

美国化学会( ACS )会员

美国材料学会( MRS )会员

美国 SBA 公司( SBA Inc. )技术顾问

韩国 LG 公司化学部技术顾问

澳大利亚 Monash 大学化工系教授(部分时间)

华东师范大学兼职教授

吉林大学兼职教授

厦门大学兼职教授

东北大学兼职教授

沈阳化工学院客座教授

华东理工大学兼职教授

南京航天航空大学兼职教授

上海师范大学生命与环境科学学院,特聘教授

浙江大学理学院学术委员会委员

中科院上海硅酸盐研究所国家重点开放实验室学术委员会委员

厦门大学纳米科学技术研究中心学术委员会委员

南京大学纳米科学技术研究中心学术委员会委员

上海交通大学金属材料国家重点实验室学术委员会委员

国家纳米科学中心学术委员会委员( 2004 )

南京大学介观化学教育部重点实验室学术委员

“ 江苏省高技术研究重点实验室(纳米技术) ” 学术委员会委员

吉林大学超分子结构与材料教育部重点实验室,第四届学术委员会委员

中国科学院大连化学物理研究所催化基础国家重点实验室,第五届学术委员会委员 ( the member of the fifth academic committee, State Key Laboratory of Catalysis, Dalian Institute of Chemical Physics Chinese Academy of Science )

《高等学校化学学报》编委

《化学学报》编委

《石油学报(石油加工)》编委

《燃料化学学报》编委

《科学通报》执行副主编

《化学物理》编委

《 Chemistry An Asian Journal 》国际编委( Editorial Aboard )

《 Journal of Materials Chemistry 》国际编委( Editorial Aboard )

《 Chemistry of Materials 》国际编委( Editorial Aboard )

《 Journal of Colloid and Interface Science 》国际编委( Editorial Aboard )

中国化学会理事

中国材料研究学会理事

上海化学化工学会无机专业委员会主任

中国化学会催化委员会理事

上海市青年联合会委员

第五届教育部科学技术委员会学部委员

国家自然科学基金委员会科学部专家评审组成员( 2004-2006 )

中国化学化工协会成员

吉大高科技股份有限公司技术顾问

复旦大学化学系学术委员会主任和学位委员会委员

国家基金委员会重点基金项目负责人( 2003-2006 )国际沸石协会( IZA )理事

国际介观结构材料协会( IMMA )理事、秘书长

国际沸石学协会( IZA )介孔分子筛分委会理事

美国化学会( ACS )会员

美国材料学会 ( MRS ) 会员

美国 SBA 公司( SBA Inc. )技术顾问

华东师范大学兼职教授

吉林大学 兼职教授

厦门大学兼职教授

东北大学兼职教授

沈阳化工学院客座教授

华东理工大学兼职教授

南京航天航空大学兼职教授

中科院上海硅酸盐研究所国家重点开放实验室学术委员会委员

厦门大学纳米科学技术研究中心学术委员会委员

南京大学纳米科学技术研究中心学术委员会委员

上海交通大学金属材料国家重点实验室学术委员会委员

国家纳米科学中心学术委员会委员( 2004 )

南京大学介观化学教育部重点实验室学术委员

“ 江苏省高技术研究重点实验室(纳米技术) ” 学术委员会委员

《石油学报(石油加工)》编委

《燃料化学学报》 编委

《科学通报》执行副主编

中国化学会无机委员会理事

中国材料研究学会理事

上海化学化工学会无机专业委员会主任

上海市青年联合会委员

第五届教育部科学技术委员会学部委员

国家自然科学基金委员会科学部专家评审组成员( 2004-2006 )

中国化学化工协会成员

吉大高科技股份有限公司技术顾问

复旦大学化学系无机学科负责人

系学术委员会主任和学位委员会委员

国家基金委员会重点基金项目负责人( 2003-2006 )

5. 负责和参加的科研项目

•  1999 年 1 月 —2001 年 12 月,国家基金委面上项目。

•  1999 年 7 月 —2001 年 6 月,国家教委留学基金项目。

•  2000 年 1 月 —2003 年 12 月,国家杰出青年科学基金项目。

•  2000 年 1 月 —2002 年 12 月,教育部科学研究重点项目。

•  2000 年 1 月 —2002 年 12 月,教育部 “ 跨世纪人才 ” 基金项目。

•  2000 年 4 月 —2004 年 3 月,国家科技部重大基础研究 “ 973” 项目。

•  2000 年 9 月- 2003 年 8 月 , 上海市科委重点基金。

•  2002 年 1 月 —2004 年 12 月,国家基金委面上项目。

•  2001 年 10 月- 2003 年 9 月,上海市纳米科技与产业发展促进中心项目。

•  2002 年 3 月- 2006 年 12 月,国家科技部 “ 973” 重大基础研究项目。

•  2002 年 1 月- 2006 年 12 月,国家基金委重点项目。

•  2002 年 1 月- 2003 年 12 月 , 上海市自然科学基金项目。

•  2002 年 9 月- 2005 年 8 月,上海市纳米中心 重点基金项目 。

•  2001 年 10 月- 2004 年 9 月,上海市纳米科技与产业发展促进中心项目。

•  2002 年 9 月- 2005 年 8 月, 国家科技部 “ 863” 重点 项目 。

•  2003 年 01 月 —2005 年 12 月,国家基金委面上项目。

•  2003 年 09 月 —2005 年 12 月,上海市科学技术委员会,重大基础研究项目。

•  2004 年 01 月 —2006 年 12 月,国家基金委面上项目。

•  2004 年 03 月 —2006 年 02 月,荷兰 Shell 公司,合作研究项目。

•  2003 年 9 月- 2006 年 8 月,复旦 — 华谊公司合作研究项目。

•  2004 年 07 月 —2006 年 06 月,韩国 LG 公司合作研究项目 。

•  2004 年 01 月 —2007 年 8 月,中国石油天然气股份有限公司炼油化工技术研究中, 合作研究项目 。

•  2004 年 03 月 —2006 年 2 月,联合利华研究发展中心合作研究项目。

•  2004 年 7 月- 2006 年 6 月,上海市科委自然科学基金重点项目。

•  2005 年 1 月 —2007 年 12 月,国家自然科学基金委员会 “ 优秀创新群体 ” 基金项目。

•  2005 年 10 月 —2008 年 9 月,国家自然科学基金委员会, 2005 年 A3 前瞻计划项目。

•  2006 年 10 月 01 日 - 2008 年 10 月 01 日 ,上海市科委重大基础研究项目。

•  2006 年 11 月 01 日 - 2011 年 10 月 31 日 ,国家重点基础研究发展计划项目。

•  2006 年 11 月- 2011 年 10 月 国家科技部 “ 973” 重大基础研究项目。

•  2007 年 01 月 —2007 年 12 月,荷兰 Shell 公司研究项目。

【研究领域】主要从事介孔材料合成和结构、机理的物理化学及其催化的研究。目前在国内外学术刊物上发表论文290余篇,获美国发明专利4项,中国发明专利30项。研究结果曾被 Nature,Nature Materials,Chemistry of Materials,Journal of Materials Chemistry. 作为封面报道,美国材料协会、美国化学会等曾作为新闻进行报道。发表论文的引用次数超过万次。2002年被选为国际介观结构材料协会理事、秘书长,2004年被选为国际沸石协会理事,2006年再次当选为IMMA理事。现任国际刊物英国皇家化学会(RSC)Journal of Materials Chemistry中国地区副主编(Associate Editor),Journal of Colloid Interface Scienc的共编辑(Co-Editor),Chemistry-An Asian Journal、美国化学会Chemistry of Materials、Dalton Transactions和Nano等刊物的编委、顾问编委。2002年曾被 Advanced Materials刊物评为15年中48位顶级作者(Top Author)之一, 被国际ISI Web of Science公司列为近十年100名引用率最高的化学家之一(排名65)。曾获得国家自然科学二等奖(第一完成人); “新世纪百千万人才工程”国家级人选;杜邦奖(DuPont Young Professor Award);中国青年科技奖;上海市科技进步奖一等奖;首届上海科技英才;上海市自然科学牡丹奖;全国劳动模范等多项奖励。获得国家自然科学基金委员会“优秀创新群体”基金、“杰出青年基金”,重大基金、重点基金以及上海市科委重大、重点基金等多项资助。
  1984年毕业于吉林大学化学系无机化学专业,获得理学学士学位.1987年获吉林大学化学系理学硕士位。1990年获大连化学物理研究所和吉林大学化学系理学博士学位。1990—1993年沈阳化工学院精化系讲师、副授。1992 – 1993年加拿大里贾纳大学化学系访问教授,1993 – 1994年以色列魏兹曼科学院化学物理系博士后,1995 – 1996年美国休斯顿大学化学系博士后,1996 – 1998年美国加州大学圣芭芭拉分校材料系和化学系博士后,1998.12至今上海复旦大学化学系教授,博导。曾获得以色列魏兹曼科学院Feiberg博士后奖,美国化学会1998年度最佳博士后奖,上海市“优秀青年科技学者”人才基金,国家教育部“跨世纪”人才称号,国家基金委“杰出青年”称号,教育部“长江计划” 国家特聘教授称号。首创了多种大孔径分子筛新材料,发表论文七十余篇,包括Science、Nature三篇,J.Am.Chem.Soc.四篇,获得美国专利 5 项。其论文被同行引用高达500余次。
  新型有序多孔性材料的微观组装和宏观控制,中孔分子筛材料的合成组装,生长及物化性质研究,新型微孔分子筛的结构和合成设计,新型有序排列的纳米材料的合成。
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