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wangmd1986

金虫 (小有名气)
★ ★ ★ ★ ★ ★
yensh(金币+6,VIP+0):谢谢提供信息~~~
【导师姓名】Chad Mirkin
【研究方向】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
【所在单位】Northwestern University
【研究成果】Xue, C.; Millstone, J. E.; Mirkin, C. A. "Plasmon-Driven Synthesis of Triangular Nanoprisms from Isotropic Gold Cores," Angew. Chem. Int. Ed. 2007, in press.

Hill, H. D.; Vega, R. A.; Mirkin, C. A. "Non-Enzymatic Detection of Bacterial Genomic DNA Using the Bio-Barcode Assay," Analytical Chem. 2007, in press.

Xue, C.; Chen, X.; Hurst, S. J.; Mirkin, C. A. "Self-Assembled Monolayer Mediated Silica Coating of Silver Triangular Nanoprisms," Adv. Mater. 2007, in press.

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, in press.

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.

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.

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, in press.

Xu, X.; Georganopoulou, D. G.; Hill, H. D.; Mirkin, C. A. "In Situ Detection of Nucleic Acids Based upon the Light Scattering Properties of Silver-Coated Nanoparticle Probes," Analytical Chem. 2007, 79, 6650-6654.

Seferos, D. S.; Giljohann, D. A.; Rosi, N. L.; Mirkin, C. A. "Locked Nucleic Acid-Nanoparticle Conjugates," ChemBioChem. 2007, 8, 1230-1232.

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, in press.

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.

Lytton-Jean, A. K. R.; Han, H. S.; Mirkin, C.A. "Microarray Detection of Duplex and Triplex DNA Binders with DNA-Modified Gold Nanoparticles," Analytical Chem. 2007, 79, 6037-6041.

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.

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.

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.

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.

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.

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
这个人真是分析的一大牛,发Science,Nature跟吃家常便饭一样,真能去他那的话前途无量!!
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21楼2008-01-05 23:48:06
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nls2008

金虫 (正式写手)

DLM 掌柜的
【导师姓名】Royce W. Murray, Kenan Professor of Chemistry
【研究方向】Electrochemistry, Molecular Design, Sensors
【所在单位】University of North Carolina, Editor-in-Chief of the journal Analytical Chemistry, 1991-present
【研究成果】321. Yang Song and Royce W. Murray, Dynamics and Pseudo-Equilibria of Ligand Exchange Depend on Electronic Charge of Metal Nanoparticles, J. Amer. Chem. Soc., 2002, 124, 7096-7102.

   
  322. Brandon R. Brown, John C. Hutchison, Mary E. Hughes, Douglas R. Kellogg, and Royce W. Murray, Electrical Characterization Of Gel Collected From Shark Electrosensors,  Phys. Rev. E 65, 061903 (2002).
   
  323. Francis P. Zamborini, Michael C. Leopold, Jocelyn F. Hicks, Pawel Kulesza, Marcin A. Malik, and Royce W. Murray, Films Of Gold Monolayer-Protected Clusters (MPCs) Linked By Carboxylate-Cu2+-Carboxylate Bridges:  Solid-State Conductivity And Vapor Sensing, , J. Amer. Chem. Soc. 2002, 124, 8958-8964. DOI: 10.1021/ja025965s.
   
  324. Dongil Lee, John C. Hutchison, Anthony M. Leone, Joseph M. DeSimone and Royce W. Murray, Electron And Mass Transport In Hybrid Redox Polyether Melts Contacted With CO2 , J. Amer. Chem. Soc., 2002; 124, 9310-9317. DOI: 10.1021/ja026209p.
   
  325. Jocelyn F. Hicks, Francis P. Zamborini, and Royce W. Murray, “Dynamics Of Electron Transfers Between Electrodes And Monolayers Of Nanoparticles” J. Phys. Chem. 2002, 106, 7751-7757.
   
  326. Gangli Wang, Jian Zhang, and Royce W. Murray, DNA Binding of an Ethidium Intercalator Attached to a Monolayer Protected Gold Cluster, Analyt. Chem. 2002, 74, 4320-4327. (Accelerated Article) DOI: 10.1021/ac0257804.

   
  327. Tao Huang and Royce W. Murray, Quenching of [Ru(bpy)3]2+ Fluorescence By Binding To Au Nanoparticles, Langmuir, 2002, 18, 7077-7081. DOI: 10.1021/la025948g

   
  372. Jocelyn F. Hicks, Deon T. Miles and Royce W. Murray, Quantized Double Layer Charging Of Highly Monodisperse Metal Nanoparticles, J. Am. Chem. Soc. 2002, 124, 13322-13328.
   
  373. Dongil Lee, Robert L. Donkers, Joseph M. DeSimone and Royce W. Murray, Voltammetry and Electron-Transfer Dynamics in a Molecular Melt of a 1.2 nm Metal Quantum Dot, , J. Am. Chem. Soc. 2003, 125, 1182-1183;  DOI: 10.1021/ja029030n
   
  374. Dongil Lee, Amanda S. Harper, Joseph M. DeSimone and Royce W. Murray, Ion Atmosphere Relaxation Control of Electron Transfer Dynamics In a Plasticized Carbon Dioxide Redox Polyether Melt, J. Am. Chem. Soc. 2003, 125, 1096-1103. DOI: 10.1021/ja0287128
   
  375. Victoria L. Jimenez, Michael C. Leopold, Carolyn Mazzitelli, James W. Jorgenson and Royce W. Murray,  ,  HPLC of Monolayer-Protected Gold Nanocusters, Analyt. Chem. 2003, 75, 199-206. DOI: 10.1021/ac0260589
   
  376. Jian Zhang, J.-K. Lee, Yue Wu, and Royce W. Murray, Photoluminescence and Electronic Interaction of Anthracene Derivatives Adsorbed on Sidewalls of Single-Walled Carbon Nanotubes Nano Letters , 2003, 3, 403-407. DOI: 10.102/nl025952c

   
  377. Deon T. Miles and Royce W. Murray, Temperature Dependent Quantized Double Layer Charging Of Monolayer Protected Gold Clusters, Analyt. Chem. 2003, 75, 1251-1257. DOI: 10.1021/ac025987x
   
  378. Anthony M. Leone, Matthew K. Brennaman, Jennifer Tobodeau, John M. Papanikolas, Royce W. Murray, and H. Holden Thorp, Photoinduced Electron Transfer in Nucleic Acid Molten Salts, J. Phys. Chem. B  in press. DOI: 10.1021/jp0273068
   
  379. Tao Huang and Royce W. Murray, Luminescence Of Tiopronin Monolayer-Protected Silver Clusters Changes To That Of Gold Clusters Upon Galvanic Core Metal Exchange , J. Phys. Chem. B, 2003, ASAP Article;  DOI: 10.1021/jp0276956   Arnim Henglein Festschrift

   
  380. Jian Zhang, Gangli Wang, Young-Seok Shon, Otto Zhou, Richard Superfine, and Royce W. Murray,  Interactions of Small Molecules and Au Nanoparticles with Solubilized Single-Wall Carbon Nanotubes J. Phys. Chem. B 2003, 107, 3726-3732.

   
  381. Anthony M. Leone, Jennifer D. Tibodeau, Steven H. Bull, Stephen W. Feldberg, H. Holden Thorp, and Royce W. Murray, Ion Atmosphere Relaxation Induced Percolative Electron Transfer in Co Bipyridine DNA Molten Salts, J. Am. Chem. Soc. 2003, 125, 6784-6790.
   
  382. Michael C. Leopold,  Robert L. Donkers, Dimitra Georganopoulou, Megan Fisher,  Francis P. Zamborini, and Royce W. Murray  Growth, Conductivity, And Vapor Response Properties Of Metal Ion -Carboxylate Linked Nanoparticle Films, Faraday Discussions 2003, 125, 63-77.

   
  383. ECLC. Yang Song, Victoria Jimenez, Collin McKinney, Robert Donkers and Royce W. Murray, Nanoparticle Size Estimation Using An HPLC Electrochemical Detector Of Double Layer Charging, Anal. Chem.,2003, 75, 5088-5096.

   
  384. Yang Song, Tao Huang and Royce W. Murray, Heterophase Ligand and Metal Exchange between Monolayer Protected Clusters, J. Am. Chem. Soc. 2003, 125, 11694-11701. DOI: 10.1021/ja0355731.

   
  385. Deon T. Miles, Michael C. Leopold, Jocelyn F. Hicks, and Royce W. Murray Simulations Of Quantized Double Layer Charging Voltammetry Of Poly-Disperse And Mono-Disperse Monolayer-Protected Clusters, J. Electroanalyt. Chem. 2003, 554, 87-97. Mike Weaver issue.

   
  386. Francis P. Zamborini, Laura A. Smart, Michael C. Leopold and Royce W. Murray, Distance-Dependent Electron Hopping Conductivity And Nanoscale Lithography Of Chemically-Linked Gold Monolayer Protected Cluster Films, Analyt. Chim. Acta 2003, 496 , 3–16.

   
  387. Gangli Wang and Royce W. Murray, Controlled Assembly of Monolayer-Protected Gold Clusters by Dissolved DNA, Nano Lett. 2004, 4, 95-101. DOI: 10.1021/nl034922m

   
  388. Robert L. Donkers, Dongil Lee and Royce W. Murray, Synthesis and Isolation of the Molecule-Like Cluster Au38(PhCH2CH2S)24, Langmuir 2004, 20, 1945-1952  DOI: 10.1021/la035706w

   
  389. Amanda S. Harper, Dongil Lee, Joseph C. Crooker, Wei Wang, Mary Elizabeth Williams, and Royce W. Murray,  Parallel Variation Of Mass Transport And Heterogeneous And Homogeneous Electron Transfer Rates In Hybrid Redox Polyether Molten Salts, J. Phys. Chem. B 2004, 108, 1866-1873. DOI: 10.1021/jp036479+
   
  390. Dongil Lee, Robert L. Donkers, Gangli Wang, Amanda S. Harper, and Royce W. Murray, Electrochemical and Optical Absorbance and Luminescence of Molecule-like Au38 Nanoparticles J. Amer. Chem. Soc, 2004, 126, 6193-6199. DOI: 10.1021/ja049605b

   
  391. Robert L. Donkers, Yang Song and Royce W. Murray, Substituent Effects on the Exchange Dynamics of Ligands on 1.6 nm Diameter Gold Nanoparticles, Langmuir 2004, 20, 4703-4707.
   
  392. Victoria L. Jimenez, Dimitra G. Georganopoulou, Ryan J. White, Amanda S. Harper, Allan J. Mills, Dongil Lee and Royce W. Murray A Hexanethiolate Monolayer-Protected 38 Gold Atom Cluster, Langmuir, 2004, 20, 6864-6870.
   
  393.Yang Song, Michael Heien, Victoria Jimenez, R. Mark Wightman, and Royce W. Murray,  Fast-Scan Cyclic Voltammetric Detection In High Resolution Liquid Chromatography Of Metal Nanoparticles, Anal. Chem. 2004, 76, 4911-4919. DOI: 10.1021/ac049223o Accel Article

   
  394.Dimitra G. Georganopoulou, Michael V. Mirkin, Royce W. Murray, SECM Measurement Of The Fast Electron Transfer Dynamics Between Au381+ Nanoparticles And Aqueous Redox Species At a Liquid/Liquid Interface, NanoLett 2004, 4, 1763-1767.
   
  395. Jennifer L. Brennan, Matthew R. Branham, Jocelyn F. Hicks, Andrea J. Osisek, Robert L. Donkers, Dimitra G. Georganopoulou and Royce W. Murray, Electron Hopping Dynamics in Monolayer-Protected Au Cluster Network Polymer Films by Rotated Disk Electrode Voltammetry, Anal. Chem. 2004, 76, 5611-5619.
   
  396. Anthony M. Leone, Dominic O. Hull, Wei Wang, H. Holden Thorp and Royce W. Murray, Electrocatalysis In Nucleic Acid Molten Salts, J. Phys. Chem. A 2004, 108, 9787-9793 Tomas Baer Festschrift
   
  397. Srikanth Ranganathan and Royce W. Murray, Comparison Of Thermal And Optical Electron Transfer Barriers In Ruthenium Redox Polyether Melts, J. Phys. Chem. B. 2004, 108, 19982-19989.
   
  398. Gangli Wang, Tao Huang, Royce W. Murray, Laurent Menard and Ralph G. Nuzzo, Near-IR Luminescence of Monolayer-Protected Metal Clusters, J. Amer. Chem. Soc. , 2005, 127, 812-813. DOI: 10.1021/ja0452471
   
  399. Royce W. Murray, Electrochemistry: One of the Pillars of Measurement Science, in Symposium on Progress in Methods Used to Solve Electrochemical Problems: Part 1, Historical Perspectives, J. Leddy, V. Birss, P. Vanysek, Eds., The Electrochemical Society, Inc., Pennington, NJ, 2004, pages 123-153.
   
  400. Rui Guo, Yang Song, Gangli Wang, Royce W. Murray, Does Core Size Matter in the Kinetics of Ligand Exchanges of Monolayer Protected Au Clusters? J. Amer. Chem. Soc., 2005, 127, 2752-2757. DOI: 10.1021/ja044638c
   
  401. Rui Guo, Dimitra Georganopoulou, Stephen W. Feldberg, Robert Donkers, Royce W. Murray, Supporting Electrolyte and Solvent Effects On Single Electron Double Layer Capacitance Charging of Hexanethiolate-Coated Au140 Nanoparticles, Anal. Chem. 2005, 77, 2662-2669. DOI: 10.1021/ac048218h
   
  402. Gregory Kalyuzhny and Royce W. Murray, Ligand Effects on Optical Properties of CdSe Nanocrystals, J. Phys. Chem. B 2005; 109, 7012-7021. DOI: 10.1021/jp045352x

   
  403. Yang Song, Amanda Harper and Royce W. Murray, Ligand Heterogeneity on Gold Monolayer Protected Clusters, Langmuir, 2005, 21, 5492-5500. DOI: 10.1021/la0503606   Supporting Information section.
   
  404. Wei Wang, Dongil Lee, Tony Leone and Royce W. Murray, Counter Ion Diffusivity Measurements Support Ion Atmosphere Relaxation Control of Electron Transfer Rates in a Semi-Solid Ruthenium Complex Molten Salt, Chem. Phys. In press. Electronic publication date May 12, 2005. For the special issue of the journal “Chemical Physics” entitled “Molecular Charge Transfer in Condensed Media - from Physics and Chemistry to Biology and Nano-engineering”, in honor of Professor Alexander M. Kuznetsov (65th).
   
  405. Ramjee Balasubramanian, Rui Guo, Allan J. Mills and Royce W. Murray, Reaction of Au55(PPh3)12Cl6 with Thiols Yields Thiolate Monolayer Protected Au75 Clusters, J. Amer. Chem. Soc., 2005, 127, 8126-8132;  DOI: 10.1021/ja050793v Supporting Information section.
   
  406. Wei Wang and Royce W. Murray, Reaction of Triphenylphosphine with Phenylethanethiolate-Protected Au38 Nanoparticles, Langmuir 2005, 21, 7015-7022. SI section.

   
  407. Rui Guo and Royce W. Murray, Substituent Effects on Redox Potentials and  Optical Gap Energies of Molecule-like Au38(SPhX)24 Nanoparticles, J. Amer. Chem. Soc., 2005, 127, 12140-12143 DOI: 10.1021/ja053119m  
   
  408. Amanda S. Harper, Anthony M. Leone, Dongil Lee, Wei Wang, Srikanth Ranganathan, Mary Elizabeth Williams, and Royce W. Murray, Ion Atmosphere Relaxation Controlled Electron Transfer In Cobaltocenium Polyether Molten Salts, J. Phys. Chem. B 2005, 109, 18852-18859. DOI: 10.1021/jp051380j

【联系地址】rwm@email.unc.edu
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22楼2008-01-06 20:06:55
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nls2008

金虫 (正式写手)

DLM 掌柜的
【导师姓名】R. Mark Wightman
【研究方向】Ultramicroelectrodes, Electrochemistry, Neurochemistry
【所在单位】University of North Carolina, Chapel Hill
【研究成果】Paying Attention with the Latest Technology, Parastoo Hashemi and R. Mark Wightman, Neuron, 56, 4-5 (2007).
Catecholamine exocytosis is diminished in R6/2 Huntington’sdisease model mice, Michael A. Johnson,  Melissa Villanueva, Christy L. Haynes, Andrew T. Seipel, Leah A. Buhler, and R. Mark Wightman, J. Neurochem., 103, 2102-2110 (2007).
Dopamine release is heterogeneous within microenvironments of the rat nucleus accumbens, R. Mark Wightman, Michael L.A.V. Heien, Kate M. Wassum, Brandon J. Aragona, Amina S. Khan, Jennifer L. Ariansen, Joseph F. Cheer, Paul E. M.Phillips, and Regina M. Carelli, Eur. J. Neurosci., 26, 2046-2054 (2007).
Associative learning mediates dynamic shifts in dopamine signaling within the nucleus accumbens, Jeremy J. Day, Mitchell F. Roitman, R. Mark Wightman, and Regina M. Carelli, Nature Neuroscience, 10, 1020-8 (2007).
Coordinated accumbal dopamine release and neural activity drive goal-directed behavior, Joseph F. Cheer, Brandon J. Aragona, Michael L.A.V. Heien, Andrew T. Seipel, Regina M. Carelli, and R. Mark Wightman, Neuron, 54:237-244 (2007).  
Temperature-dependent differences between readily releasable and reserve pool vesicles in chromaffin cells, C. L. Haynes, L.N. Siff, R. M. Wightman, Biochim Biophys Acta. 1773:728-35 (2007).
Paradoxical Modulation of Short-term Facilitation of Dopamine Release by Dopamine D2 Receptors, Justin M. Kita, Lauren E. Parker, Paul E. M. Phillips, Paul A. Garris, and R. Mark Wightman, J. Neurochem., 102, 1115-24 (2007).
Facilitation of quantal release induced by a D1-like receptor on bovine chromaffin cells, Melissa Villanueva and R. Mark Wightman, Biochemistry, 46, 3881-3887 (2007).
Rapid dopamine release in freely moving rats, Donita L. Robinson and R. Mark Wightman, Electrochemical Methods for Neuroscience, A.C. Michael and L. M. Borland, editors, Frontiers in Neuroengineering Series, CRC Press, Boca Raton, FL, 2007, pp 17-36.
Phasic dopamine release evoked by abused substances requires cannabinoid receptor activation, Joseph F. Cheer, Kate M. Wassum, Leslie A. Sombers, Michael L. A. V. Heien, Jennifer L. Ariansen, Brandon J. Aragona, Paul E. M. Phillips, R. Mark Wightman, J. Neuroscience, 27, 791-795 (2007).
Pharmacologically induced, subsecond dopamine transients in the caudate-putamen of the anesthetized rat, B. Jill Venton and R. Mark Wightman, Synapse, 61, 37-39 (2007). 【联系地址】rmw@unc.edu
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nls2008

金虫 (正式写手)

DLM 掌柜的
【导师姓名】James W. Jorgenson
【研究方向】Analytical Separations, Capillary Electrophoresis, Capillary Liquid Chromatography
【所在单位】University of North Carolina, Chapel Hill
【研究成果】
JOURNAL OF CHROMATOGRAPHY A 1134 (1-2): 201-209 NOV 17 2006
ANALYTICAL CHEMISTRY 78 (15): 5309-5315 AUG 1 2006
ANALYTICAL CHEMISTRY 78 (5): 1697-1706 MAR 1 2006
ANALYTICAL CHEMISTRY 77 (21): 7024-7031 NOV 1 2005
ANALYTICAL CHEMISTRY 77 (19): 6292-6299 OCT 1 2005
ELECTROPHORESIS 26 (10): 2027-2033 MAY 2005
ANALYTICAL CHEMISTRY 76 (18): 5441-5450 SEP 15 2004
【联系地址】jj@unc.edu
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24楼2008-01-06 20:34:02
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nls2008

金虫 (正式写手)

DLM 掌柜的
★ ★ ★ ★ ★ ★ ★ ★ ★ ★ ★ ★ ★ ★ ★ ★ ★ ★ ★ ★
yensh(金币+20,VIP+0):谢谢提供信息,以上帖子一并奖励~~~
【导师姓名】Henry S. White

【研究方向】My colleagues and I are engaged in both experimental and theoretical aspects of electrochemistry, with diverse connections to analytical, biological, physical, and materials chemistry. Much of our current research is focused on electrochemistry in microscale and nanoscale domains.

【所在单位】Interfacial and Bioanalytical Chemistry (IBAC) at the University of Utah

【研究成果】J. J. Watkins, B. Zhang, and H. S. White, "Electrochemistry at Nanometer-Scale Electrodes," J. Chem. Ed ., 2005,  82, 712.
B. Zhang, Y. Zhang, and H. S. White, "The Steady-State Voltammetric Response of the Nanopore Electrode", Anal. Chem., 2006, 78, 477.
Newton, M. R.; Bohaty, A. K.; Zhang, Y.; White, H. S.; Zharov, I., "pH- and Ionic Strength-Controlled Cation Permselectivity in Amine-Modified Nanoporous Opal Films" 2006, 22,  4429.
Y. Zhang, B. Zhang, and H. S. White, "Electrochemistry of Nanopore Electrodes in Low Ionic Strength Solution", J. Phys. Chem., 2006, 110,1768.      
S. Lee, Y. Zhang, H. S. White, C. C. Harrell and C. R. Martin "Electrophoretic Capture and Detection of Nanoparticles at the Opening of a Membrane Pore using Scanning Electrochemical Microscopy," Anal. Chem. 2006, ASAP article.
G. Wang, B. Zhang, J. Wayment, J. M. Harris, and H. S. White, "Electrostatic-Gated Transport in Chemically Modified Glass Nanopore Electrodes," J. Am. Chem. Soc., 2006, 128, 7639.
S. K. Li, Y. Zhang, H. Zhu, W. I. Higuchi, and H. S. White, "Influence of Asymmetric Donor-Receiver Ion Concentrations upon Transscleral Iontophoretic Transport", Pharm. Res., 2005, 94, 847.
G. Wang, A. K. Bohaty, I. Zharov, and H. S. White "Photon Gated Transport at the Glass Nanopore Electrode," J. Am. Chem. Soc., 2006, ASAP article.
R. J. White, Bo Zhang, S. Daniel, J. Tang, E. N. Ervin, P. S. Cremer, and H. S. White, "The Ionic Conductivity of the Aqueous Layer Separating a Lipid Bilayer Membrane and a Glass Support," Langmuir, 2006, ASAP article.
R. J. White and H. S. White, "A Random Walk through Electron-Transfer Kinetics," Anal. Chem., 2005, 127, 214A.

【联系地址】white@chem.utah.edu
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25楼2008-01-06 20:39:09
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内容被版主屏蔽

[ Last edited by yensh on 2008-1-7 at 15:13 ]
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nls2008

金虫 (正式写手)

DLM 掌柜的
【导师姓名】Joseph Wang
【研究方向】bioelectronic detection of proteins and nucleic acids, microfabrication, nanoparticle-based bioassays
【所在单位】New Mexico State University
【研究成果】J. Wang, G. Liu, B. Munge, L. Lin and Q. Zhu, "DNA-based Amplified Bioelectronic Detection and Coding of Proteins" Angew Chemie Int. Ed, 43, 2158, (2004).

J. Wang, G. Liu, M. Jan, " Ultrasensitive Electrical Biosensing of Proteins and DNA: Carbon-Nanotube Derived Amplification of the Recognition and Transduction Events" J. Am. Chem. Soc. 126, 3010, (2004).

J. Wang, G. Chen, M. P. Chatrathi, M. Musameh, "CE Microchips with Carbon-Nanotube Electrochemical Detectors", Anal. Chem., 76, 298, (2004).

J. Wang, R. Deo, P. Poulin, and M. Mangey, "Carbon Nanotube Fiber Microelectrodes", J. Am. Chem. Soc. 125, 14706, (2003).

J. Wang, A. Ibanez, and M. P. Chatrathi, "'On-Chip Integration of Enzyme and Immunoassays: Simultaneous Measurements of Insulin and Glucose", J. Am. Chem. Soc. 125, 8444, (2003).

J. Wang, M. Musameh, and Y. Lin, "'Solubilization of Carbon Nanotubes by Nafion Towards the Preparation of Amperometric Biosensors", J. Am. Chem. Soc. 125, 2408, (2003).

J. Wang, G. Liu, and A. Merkoci, "'Electrochemical Coding Technology For Simultaneous Detection of Multiple DNA Targets", J. Am. Chem. Soc. 125, 3214, (2003).

J. Wang, and M. Musameh, "Carbon Nanotube/Teflon Composite Electrochemical Sensors and Biosensors", Anal. Chem., 75, 2075, (2003).

J. Wang, and M. P. Chatrathi, " Microfabricated Electrophoresis Chip for Bioassay of Renal Markers", Anal. Chem., 75, 525, (2003).

J. Wang, "Real-Time Electrochemical Monitoring: Toward Green Analytical Chemistry", Accounts of Chemical Research 35, 811, (2002).

J. Wang, R. Polsky, A. Merkoci, K. Turner, "'Electroactive Beads' for Ultrasensitive DNA Hybridization Detection", Langmuir 19, 989, (2003).

J. Wang, M. Pumera, "Dual Conductivity/Amperometric Detection System for Microchip Capillary Electrophoresis", Anal. Chem. 74, 5919, (2002).

J. Wang, M. Pumera, G. E. Collins, A. Mulchandani, "Measurements of Chemical Warfare Agent Degradation Products Using an Electrophoresis Microchip with Contactless Conductivity Detector", Anal. Chem. 74, 6121, (2002).

J. Wang, D. Xu, R. Polsky, "Magnetically-Induced Solid-State Electrochemical Detection of DNA Hybridization", J. Am. Chem. Soc. 124, 4208, (2002).

J. Wang, M. Pumera, M. P. Chatrathi, A. Escarpa, M. Musameh, G. Collins , A. Mulchandani , Y. Lin, K. Olsen, "Single-Channel Microchip for Fast Screening and Detailed Identification of Nitroaromatic Explosives or Organophosphate Nerve Agents", Anal. Chem. 74, 1187, (2002)

J. Wang, D. Xu, A.N. Kawde, R. Polsky, "Metal Nanoparticle-Based Electrochemical Stripping Potentiometric Detection of DNA Hybridization", Anal. Chem. 73, 5576, (2001).

J. Wang, A. Ibáñez, M.P. Chatrathi, A. Escarpa "Electrochemical Enzyme Immunoassay on Microchip Platforms", Anal. Chem. 73, 5323, (2001).

M. Pumera, J. Wang, E. Grushka, R. Polsky "Gold-Nanoparticle-Enhanced Microchip Capillary Electrophoresis", Anal. Chem. 73, 5625, (2001).
J. Wang, R. Polsky, D. Xu "Silver-Enhanced Colloidal Gold Electrochemical Striping Detection of DNA Hybridization", Langmuir 17, 5739, (2001).

J. Wang, M.P.Chatrathi, A.Mulchandani, W.Chen "Capillary Electrophoresis Microchips for Separation and Detection of Organophosphate Nerve Agents", Anal. Chem. 73, 1804, (2001).

J. Wang et al. "Microseparation Chips for Performing Multienzymatic Dehydrogenase/Oxidase Assays: Simultaneous Electrochemical Measurement of Ethanol and Glucose", Anal. Chem. 73, 1296 (2001).

J. Wang et al. "Needle-Type Dual Microsensor for the Simultaneous Monitoring of Glucose and Insulin", Anal. Chem 73, 844 (2001).

J. Wang et al, "Micromachined separation chips with Precolumn Reactor and End-Column Electrochemical Detection", Anal. Chem. 72, 5774 (2000).

J. Wang et al, "Flow Detection of Nucleic Acids at a Conducting Polymer-Modified Electrode," Anal. Chem., 71,4095 (1999).

J. Wang, "From DNA Biosensor to Gene Chips," Nucleic Acid Research, 28, 3011 (2000).

J. Wang, R. Polsky, B. Tian, and M. P. Chatrathi, "Voltammetry on Microfluidic Chip Platforms," Anal. Chem., 72, 5285 (2000).

J. Wang et al, "Microfabricated Electrophoresis Chips for Simultaneous Bioassays of Glucose, Uric Acid, Ascorbic Acid, and Acetaminophen," Anal. Chem., 72,2514 (2000).

J. Wang et al, "Electrochemically-Induced Release of DNA From Gold Ultramicroelectrodes," Langmuir, 19,6541 (1999).

J. Wang et al, "Integrated Electrophoresis Chips/Amperometric Detection with Sputtered Gold Working Electrodes," Anal. Chem., 71,3901 (1999).

J. Wang et al, "Lab-on-a-Cable for Electrochemical Monitoring of Phenolic Contaminants," Anal. Chem., 72,2659 (2000).

J. Wang, "Towards Genoelectronics: Electrochemical Biosensing of DNA Hybridization," Chemistry European J., 5, 1681(1999).

J. Wang, B. Getts, Mian Jiang, and J. Nilson, "Dendritic Nucleic Acid Probes for DNA Biosensors," Journal of the American Chemical Society, 120,  8281(1998).

J. Wang, P. Pamidi and D. Zannette, "Self-assembled Sol-Gel Networks," Journal of the American Chemical Society, 120, 5852 (1998).

J. Wang, P. Pamidi, "Sol-Gel Derived Thick-Film Amperometric Immunosenors," Anal. Chem., 70, 1171 (1998).

J. Wang, L. Angnes, "Miniaturized Glucose Sensors Based on Carbon Fiber Electrodes," Anal. Chem., 64, 456 (1992).

J. Wang, Q. Chen, "Enzyme Microelctrode Array strips for Glucose and Lactate," Anal. Chem., 66, 1007 (1994).

J. Wang, B. Tian, "Screen-Printed Stripping Electrodes for Decentralized Testing of Trace Lead," Anal. Chem., 64, 1706 (1992).

J. Wang, X. Cai, G. Rivas, "DNA Biosensor for the Detection of DNA sequences of HIV," Anal. Chem., 68, 2629 (1996).

Q. Chen, J. Wang, G. Rayson, B. Tian, Y. Lin, "Sensor Array for Carbohydrates based on Electrocatalytic Modified Electrodes,"Anal. Chem., 65, 251 (1993).

J. Wang, E. Palecek, P. Nielsen, G. Rivas, X. Cai, H. Shiraishi, N. Dontha, D. Luo, and P. Farias. "Peptide Nucleic Acid Probes for Sequence-Specific DNA Biosensors". Journal of the American Chemical Society. 118, 7667 (1997).

J. Wang "Remote Electrochemical Sensors for Monitoring Inorganic and Organic Pollutants", Trends Anal. Chem., 16, 84 (1997).

J. Wang, P. Pamidi and D. Park, "Screen-Printable Sol-Gel Enzyme Containing Carbon Inks", Anal. Chem. 68, 2705 (1996).

J. Wang and F. Lu, "Oxygen-rich Oxidase Electrodes for operation in Oxygen-free Environments", J. Am. Chem. Soc., 120, 1048 (1998).

【联系地址】joewang@nmsu.edu , Phone: (505) 646-2140
Fax: (505) 646-6033
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27楼2008-01-07 15:07:15
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nls2008

金虫 (正式写手)

DLM 掌柜的
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yensh(金币+6,VIP+0):谢谢分享您的信息~~~
另,Joseph Wang 是电分析(Electroanalysis)主编
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28楼2008-01-07 15:08:39
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金虫 (正式写手)

DLM 掌柜的

杨士成,爱荷华州立大学杰出教授,湖南大学兼职,长江学者

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【导师姓名】Edward S. Yeung
【研究方向】The primary goal of their research program is to introduce new approaches in chemical analysis by providing an in-depth understanding of the fundamental principles behind the measurements, by developing new instrumentation and new procedures, and by using novel data treatment procedures to aid in the solution of chemical problems. Typically, Edward S. Yeung let a student choose among several projects to fit his/her interest and career goals, ranging from fundamental studies to applications. The various skills for which they provide training include laser and spectroscopic methods, vacuum technology, electronics, computer interfacing, chromatography, and information theory applied to data treatment. The kinds of problems that interest them are mostly those in the environmental and in the clinical areas.
【所在单位】美国爱荷华州立大学化学系
【研究成果】S. H. Kang, S. Lee and E. S. Yeung, “Real-time Dynamics of Single Native DNA Molecules in a Microchannel by Differential Interference Contrast Microscopy”, Anal. Chem., in press.

D. Isailovic, H.-W. Li and E. S. Yeung, “Isolation and Characterization of R-phycoerythrin Subunits and Enzymatic Digests”, J. Chromatogr. A, in press.

J. A. Gruenhagen, C.-Y. Lai, D. R. Radu, V. S.-Y. Lin and E. S. Yeung, Real-Time ATP Imaging of Tunable Release from a MCM-41-type Mesoporous Silica Nanospher-Based Delivery System”, J. Am. Chem. Soc., submitted.

J.-Y. Lee, H.-W. Li and E. S. Yeung, “Single molecule spectroscopy for molecular identification in capillary electrophoresis”, J. Chromatogr. A, in press.

J. Zheng, H. Li and E. S. Yeung, “Manipulation of Single DNA Molecules via Lateral Focusing in a PDMS/Glass Microchannel”, J. Phys. Chem. B, 108, 10357 (2004).

J. Gruenhagen, P. Lovell, L. L. Moroz and E. S. Yeung, “Monitoring Real-Time Release of ATP from the Molluscan Central Nervous System”, J. Neurosci. Methods, in press.

J. Gruenhagen and E. S. Yeung, “Investigation of G-protein Initiated Ca2+-Dependent Release of ATP from Endothelial Cells”, Biochem. Biophys. Acta, in press.

C. Sluszny and E. S. Yeung, “One- and Two-Dimensional Miniaturized Electrophoresis of Proteins with Native Fluorescence Detection”, Anal. Chem., 76, 1359 (2004).

E. S. Yeung, “Dynamics of Single Biomolecules in Free Solution”, Annu. Rev. Phys. Chem., 55, 97 (2004).  

Y. Markushin, W. Zhong, E. L. Cavalieri, E. G. Rogan, G. J. Small, E. S. Yeung and R. Jankowiak, “Spectral Characterization of Catechol Estrogen Quinone (CEQ)-Derived DNA Adducts and Their Identification in Human Breast Tissue Extract”, Chem. Res. Toxicol., 16, 1107 (2003).

W. Zhong and E. S. Yeung, “High-Throughput Analysis of Total RNA Expression Profiles by Capillary Gel Electrophoresis”, Anal. Chem., 75, 4415 (2003).

J. Zheng and E. S. Yeung, “Mechanism for the Separation of Large Molecules Based on Radial Migration in Capillary Electrophoresis”, Anal. Chem., Accelerated Article, 75, 3675 (2003).

E. S. Yeung, “Big Science versus Small Science”, invited editorial, Anal. Chem., 75, 85A (2003).

E. S. Yeung, “By the Numbers”, SPIE OE Magazine, February 2003, p. 24.

M. Hashimoto, Y. He and E. S. Yeung, “On-line Integration of PCR and Cycle Sequencing in Capillaries: From Human Genomic DNA Directly to Called Bases”, Nucl. Acids Res., 31, e41, i-xvii (2003).

J. Zheng and E. S. Yeung, “Mechanism of Microbial Aggregation during Capillary Electrophoresis”, Anal. Chem., 75, 818 (2003).

J. Zheng and E. S. Yeung, “Counting Single DNA Molecules in a Capillary with Radial Focusing”, Aust. J. Chem., 56, 149 (2003).

S. H. Kang and E. S. Yeung, “Dynamics of Single Protein Molecules at a Liquid/Solid Interface: Implications in Electrophoresis and Chromatography”, Anal. Chem., 74, 6334 (2002).

H. Matsunaga, T. Anawaza and E. S. Yeung, “Integrated On-Capillary Instrumentation for Gene Expression Measurement Directly from Cells”, Electrophoresis, 24, 458 (2003).

Y. Zhang and E. S. Yeung, “Microscale Sample Preparation for DNA Sequencing and Genotyping”, in Analytical Techniques in DNA Sequencing, B. K. Nunnally, Ed., Marcel Dekker: New York, in press (2003).

Y. He and E. S. Yeung, “High-Throughput Screening of Kinase Inhibitors by Multiplex Capillary Electrophoresis with UV Absorption Detection”, Electrophoresis, 24, 101 (2003).

D. W. Armstrong, M. Girod, L. He, M. A. Rodriguez, W. Wei, J. Zheng and E. S. Yeung, “Mechanistic Aspects in the Generation of Apparent Ultra-High Efficiencies for Colloidal (Microbial) Electrokinetic Separations”, Anal. Chem., 74, 5523 (2002).

E. S. Yeung, “Single-Molecule Optical Imaging” in McGraw-Hill Yearbook of Science and Technology, McGraw-Hill: New York, p. 392 (2003).

M. Christodoulou and E. S. Yeung, “Chemical Imaging of Surface Reactions by Multiplexed Capillary Electrophoresis”, Anal. Chem., 74, 5414 (2002).

T. Anazawa, H. Matsunaga and E. S. Yeung, “Electrophoretic Quantitation of Nucleic Acids without Amplification by Single-Molecule Imaging”, Anal. Chem., 74, 5033 (2002).

J. Zheng and E. S. Yeung, “Anomalous Radial Migration of Single DNA Molecules in Capillary Electrophoresis”, Anal. Chem., 74, 4536 (2002).



W. Wei and E. S. Yeung, “On-line Concentration of Proteins and Peptides in Capillary Zone Electrophoresis with an Etched Porous Joint”, Anal. Chem., 74, 3899 (2002).

W. Zhong and E. S. Yeung, “Combinatorial Enantiomeric Separation of Diverse Compounds using Capillary Array Electrophoresis”, Electrophoresis, 23, 2996 (2002).

H. Li and E. S. Yeung, “Selective Genotyping of Individual Cells by Capillary Polymerase Chain Reaction”, Electrophoresis, 23, 3372 (2002).

Y. He and E. S. Yeung, “Rapid Determination of Protein Molecular Weight by the Ferguson Method and Multiplexed Capillary Electrophoresis”, J. Proteome Res., 1, 273 (2002).

G. Xue and E. S. Yeung, “Two Color Excitation System for Fluorescence Detection in DNA Sequencing by Capillary Array Electrophoresis”, Electrophoresis, 23, 1490 (2002).

W. Wei, G. Xue and E. S. Yeung, “One-Step Concentration of Analytes Based on Dynamic Change in pH in Capillary Zone Electrophoresis”, Anal. Chem., 74, 934 (2002).


【联系地址】yeung@ameslab.gov
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29楼2008-01-09 14:48:29
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weihui_cn

金虫 (职业作家)

Nie Shuming聂书明

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http://www.wcigtccne.com/investigatorsdetail.php?id=5

较早涉猎单分子检测

Shuming Nie, Ph.D.

Wallace H. Coulter Distinguished Chair in
Biomedical Engineering at Emory and Georgia Tech
Professor of Biomedical Engineering, Chemistry,
Hematology & Oncology
Director for Nanotechnology and Bioengineering,
Winship Cancer Institute

Shuming Nie is one of the world's leaders in detecting single molecules in biological systems -- the science of nanotechnology. He is one of the first scientists in the world to utilize nanotechnology, which has been used in manufacturing for many years, in the biomedical field. Dr. Nie has been invited by the Nobel Foundation and other international centers to describe his research on nanotechnology and the ability to make measurements of molecules in single cells and in trace amounts of biological material. This research has tremendous potential for cancer diagnostics, and monitoring treatment effects in tiny clinical biopsies.

The National Cancer Institute (NCI) of the National Institutes of Health recently selected Emory University and the Georgia Institute of Technology as one of seven National Centers of Cancer Nanotechnology Excellence (CCNE). The new center will be named the "Emory-Georgia Tech Nanotechnology Center for Personalized and Predictive Oncology," and will be housed in Emory's Winship Cancer Institute and on the Georgia Tech campus. The amount awarded is $3.66 million for the first year, and is expected to reach $19-20 million over a five-year period.

Earlier, the NIH awarded Dr. Nie and his colleagues' two new collaborative research grants totaling nearly $10 million. The grants will be used to establish a multidisciplinary research program in cancer nanotechnology and to develop a new class of nanoparticles for molecular and cellular imaging.

In each of these grants, investigators are working at the sub-atomic level, seeking data that will link molecular signatures, (underlying molecular features) to patients' clinical outcomes so that cancers can be predicted, detected earlier and treated more effectively. The research will have broad applications to many types of tumors, including prostate, breast, colorectal cancer and lymphoma.

In addition, Dr. Nie and his team will collaborate with cell biologists to study a variety of molecules involved in the development and progression of cancer, including those involved in programmed cell death; genes such as the p53 gene, which is implicated in many kinds of cancer; and microtubules and molecular motors, which are involved in transporting the proteins in cells that regulate cell growth.
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