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Am. Chem. Soc.£¬Phys. Rew. Lett.ÉÏ·¢±íÂÛÎÄ´ï40ƪ¡£ ²é¶û˹-ÁÒ²¨½ÌÊÚÔçÄê´ÓʱíÃæÎïÀí»¯Ñ§Ñо¿£¬Ôø½¨Á¢Á˵ç×ÓɨÃèËíµÀ£¨STM£©µÄ±íÃæµç×Ó̽Õë½á¹¹ÀíÂÛ£¬µì¶¨ÁËSTMµÄ»ù´¡£¬ÎªSTMµÄ·¢Õ¹×ö³öÁËÖØÒª¹±Ïס£Îª´Ë£¬¹þ·ð´óѧֱ½ÓƸËûΪÕý½ÌÊÚ£¬ÏÖÔÚËûÒѳÉΪ¹þ·ð´óѧ×î¸ßÖÕÉíÂí¿Ë-ºÚÂü£¨Mark Hyman£©½ÌÊÚ£¬ÊǼ«ÓÐÏ£Íû»ñµÃŵ±´¶û½±µÄ¹ú¼ÊÖøÃû½ÌÊÚÖ®Ò»¡£ ²é¶û˹-ÁÒ²¨½ÌÊÚ¶ÔÖйúÓÐ×ÅÉîºñµÄ¸ÐÇ飬ÔøÅàÑøÁËÒ»´óÅú¹ú¼ÊÖøÃûµÄÖйúѧÕß¡£ËûÃǶ¼»îÔ¾ÔÚ¹ú¼ÊÄÉÃ׿Ƽ¼Ñо¿µÄµÚÒ»Ïߣ¬ÈçÏÖÔÚ˹̹¸£´óѧÈν̡¢¡°¹ú¼Ò½Ü³öÇàÄê»ù½ð¡°»ñµÃÕß´÷ºé½Ü½ÌÊÚ¡¢²®¿ËÀû´óѧ¡°¹ú¼Ò½Ü³öÇàÄê»ù½ð¡°»ñµÃÕßÑîÅණ½ÌÊÚ¡¢ÇÇÖÎÑÇÀí¹¤µÄÕÅÖÒ¾Õ½ÌÊÚ£¨Ô¸´µ©´óѧ»¯Ñ§ÏµÑ§Éú£©¡¢±±¾©Ç廪´óѧ¡°973¡°Ê×ϯ¿Æѧ¼Ò¡¢½ÌÓý²¿¡°³¤½¼Æ»®¡°³É¾Í½±»ñµÃÕß·¶ÊØÉƽÌÊڵȡ£ËûΪÖйúÒ²ÅàÑøÁËÐí¶àÇàÄê¿Æѧ¼Ò£¬ËûÃÇ×î½üÒÑ»ØÖйúµ£ÈÎȫְְ룬Èç±±¾©´óѧµÄ²Ü°²Ô´²©Ê¿¡¢Öйú¹ú¼ÒÄÉÃ×ÖÐÐĵķ½Ó¢²©Ê¿ºÍ¹¬½¨È㲩ʿ¡£ ÔÚËûµÄ´óÁ¦Ö§³ÖºÍ¾«ÐÄÖ¸µ¼Ï¡°Î人Àí¹¤´óѧ-¹þ·ð´óѧÄÉÃ×ÁªºÏÖصãʵÑéÊÒ¡±Ò²¼´½«½¨³É,²¢½«ÓÉLieber½ÌÊÚµ£ÈÎʵÑéÊÒÖ÷ÈΡ£ Lieber½ÌÊÚÔÚ¹ýÈ¥µÄ10ÄêÖУ¬ÏȺóÔÚNature¡¢ScienceÔÓÖ¾·¢±íÁË40ƪÄÉÃ×Ñо¿ÂÛÎÄ£¬±»¹ú¼ÊѧÕßÆձ鹫ÈÏΪÊÇÄÉÃ׿Ƽ¼ÁìÓòµÄ¿ª´´ÕßÖ®Ò»£»Ôø»ñÃÀ¹ú×ÜͳÇàÄê¿Æ¼¼½±¡¢2002ÄêÃÀ¹úÎïÀíѧ»áMcGroddy½±¡¢2002ÄêÃÀ¹ú²ÄÁÏ¿Æѧѧ»á½±¡¢2001ÄêÄÉÃ×¼¼ÊõFeynman½±µÈ30ÓàÏî¿Æ¼¼ÓëÈÙÓþ½±Àø¡£ »ñ½±Çé¿ö: 2001¡¡ÄÉÃ×¼¼Êõ·ÑÂü£¨Feynman£©½±£¨ÄÉÃ׿Æѧ¼¼ÊõÑо¿ÁìÓò×î¸ß½±Ï 2000¡¡¹ú¼ÊÁªºÏ´¿´âÓ¦Óû¯Ñ§»áÑо¿Ô± 1997¡¡ÃÀ¹úÏȽø¿ÆѧлáÑо¿Ô± 1996 ÃÀ¹úÎïÀí»áÑо¿Ô± 1996 ÃÀ¹ú¿Æѧ»ù½ð´´Ôì½± 1995¡¡ÃÀ¹ú»¯Ñ§»áLeo Hendrik Baekeland½±£¨²ÄÁÏ»¯Ñ§×î¸ß½±Ï 1994£1995¡¡¹þ·ð´óѧGeorge Ledlie½± 1994 Ó¢¹ú¸çÂ×±ÈÑÇ´óѧ²ÄÁÏ¿Æѧ3MÑݽ²½± 1994 ¸»À¼¿ËÁÖMarshallѧԺMerck½²Ê¦½± 1993 ²ÄÁÏÑо¿Ñ§»á½Ü³öÇàÄêÑо¿½± 1992 ÃÀ¹ú»¯Ñ§»á´¿´â»¯Ñ§½± 1992¡¡ Dinkewalter½± 1990£1995¡¡ Camille ºÍ Henry Dreyfus½ÌʦѧÕß½± 1990¡¡Íþ¶ûÑ·£¨Wilson£©½± 1990£1992¡¡ ˹¡£¨Alfred P. Sloan£©Ñо¿Ô± 1988£1993¡¡ DavidºÍLucile PackardÑо¿Ô± 1988£1993¡¡ÏȽøÇàÄêÑо¿½± 1987¡¡Dreyfus »ù½ð½Ü³ö²ÅÄܽ± 1985£1987¡¡NIH²©Ê¿ºóÑо¿»á³ÉÔ± 1985 Joseph W. Richardsµç»¯Ñ§»á³ÉÔ± 1981 B. A. ѧ룬Magna Cum Laude»¯Ñ§ÈÙÓþ 1981 ÃÀ¹ú»¯Ñ§¼Òлá½Ü³ö×ʸñ½± 1981 Theodore SaulnierÑо¿½± 1981¡¡ ׿Խ»¯Ñ§¹±Ï×Pentathalon ½±Õ 1981 ±»Ñ¡ÎªPhi Beta Kappa »¯Ñ§½± ¹²·¢±íÂÛÎÄ200Óàƪ¡£Ôø±»ÑûÇëÔÚ¸÷ÖÖÖØÒª¹ú¼ÊѧÊõ»áÒéºÍÃÀ¹ú»¯Ñ§»á¡¢ÎïÀíѧ»á¡¢²ÄÁÏѧ»á×ö´ó»áÑûÇ뱨¸æ´ï40´Î¡£¶à´ÎÔÚAcc. Chem. Res., Am. Sci. µÈ¹ú¼ÊÖøÃû¿¯ÎïÉÏ׫д×ÛÊöÐÔÂÛÎÄ10ƪÒÔÉÏ£¬ÂÛÎı»ÒýÓÃ7000´ÎÒÔÉÏ¡£ Charles M. Lieber ½ÌÊÚ·¢±íµÄ´ú±íÐÔÂÛÎÄ£º (ÕâЩÎÄ×ֱȽϹÅÀÏ,Õª¼¸Æª¼´¿É) 1. C. M. Lieber and N. S. Lewis, ¡°Catalytic Reduction of CO2 at Carbon Electrodes Modified with Cobalt Phthalocyanine¡°. J. Am. Chem. Soc. 106, 5033 (1984). 2. C. M. Lieber, C. M. Gronet and N. S. Lewis, ¡°Evidence Against Surface State Limitations on the Efficiency of p-Si/CH3CN Junctions¡°. Nature 307, 533 (1984). 3. C. M. Lieber and N. S. Lewis, ¡°Probing Polymer Effects on Chemical Reactivity: Ligand Substitution Kinetics of Ru(NH3)5(H2O)2+ in Nafion Films¡°. J. Am. Chem. Soc. 107, 7190 (1985). 4. C. M. Lieber, M. Schmidt, and N. S. Lewis, ¡°Kinetic Studies of Ligand Substitution Rates for the Ru(NH3)5(H2O)2+ ion in Nafion Films¡°. J. Am. Chem. Soc. 108, 6103 (1986). 5. C. M. Lieber, J. L. Karas, and H. B. Gray, ¡°Reversible Long-Range Electron Transfer in Ruthenium-Modified Sperm Whale Myoglobin¡°. J. Am. Chem. Soc. 109, 3778 (1987). 6. J. L. Karas, C. M. Lieber, and H. B. Gray, ¡°Free Energy Dependence of the Rate of Long-Range Electron Transfer in Proteins. Experimental Execuation of the Reorganization Energy in Ruthenium-Modified Myoglobin¡°. J. Am. Chem. Soc. 110, 599 (1988). 7. X. L. Wu and C. M. Lieber, ¡°Determination of the Structural and Electronic Properties of Surfaces using Scanning Tunneling Microscopy Coupled with Chemical Modifications¡° J. Am. Chem. Soc. 110, 5200 (1988). 8. X. L. Wu, P. Zhou and C. M. Lieber, ¡°Surface Electronic Properties Probed with Tunneling Microscopy and Chemical Doping¡°. Nature 335, 55 (1988). 9. X. L. Wu, P. Zhou and C. M. Lieber, ¡°Determination of the Local Effect of Impurities on the Charge Density Wave Phase in TaS2 by Scanning Tunneling Microscopy¡° Phys. Rev. Lett. 61, 2604 (1988). 10. X. L. Wu and C. M. Lieber, ¡°The Hexagonal Domain-Like Charge Density Wave Phase of TaS2 Determined by Scanning Tunneling Microscopy¡°. Science 243, 1703 (1989). 11. X. L. Wu and C. M. Lieber, ¡°Scanning Tunneling Investigations Investigations of a New Charge Density Wave Phase in Niobium-Doped Tantalum Disulfide¡°. J. Am. Chem. Soc. 111, 2731 (1989) Nanobeam Mechanics: Elasticity, Strength, and Toughness of Nanorods and Nanotubes (Citations: 724) Eric W. Wong, Paul E. Sheehan, Charles M. Lieber Journal: Science , vol. 277, no. 5334, pp. 1971-1975, 1997 Nanowire Nanosensors for Highly Sensitive and Selective Detection of Biological and Chemical Species (Citations: 675) Yi Cui, Qingqiao Wei, Hongkun Park, Charles M. Lieber Journal: Science , vol. 293, no. 5533, pp. 1289-1292, 2001 A Laser Ablation Method for the Synthesis of Crystalline Semiconductor Nanowires (Citations: 521) Alfredo M. Morales, Charles M. Lieber Journal: Science , vol. 279, no. 5348, pp. 208-211, 1998 Functional Nanoscale Electronic Devices Assembled Using Silicon Nanowire Building Blocks (Citations: 439) Y. Cui, C. Lieber Journal: Science , vol. 291, no. 5505, pp. 851-853, 2001 Logic Gates and Computation from Assembled Nanowire Building Blocks (Citations: 419) Yu Huang, Xiangfeng Duan, Yi Cui, Lincoln J. Lauhon, Kyoung-Ha Kim, Charles M. Lieber Journal: Science , vol. 294, no. 5545, pp. 1313-1317, 2001 Carbon Nanotube-Based Nonvolatile Random Access Memory for Molecular Computing (Citations: 366) Thomas Rueckes, Kyoungha Kim, Ernesto Joselevich, Greg Y. Tseng, Chin-Li Cheung, Charles M. Lieber Journal: Science , vol. 289, no. 5476, pp. 94-97, 2000 Growth of nanowire superlattice structures for nanoscale photonics and electronics (Citations: 296) Mark S. Gudiksen, Lincoln J. Lauhon, Jianfang Wang, David C. Smith, Charles M. Lieber Journal: Nature , vol. 415, no. 6872, pp. 617-620, 2002 Multiplexed electrical detection of cancer markers with nanowire sensor arrays (Citations: 277) Journal: Nature Biotechnology - NAT BIOTECHNOL , vol. 23, no. 10, pp. 1294-1301, 2005 Single-nanowire electrically driven lasers (Citations: 237) Xiangfeng Duan, Yu Huang, Ritesh Agarwal, Charles M. Lieber Journal: Nature , vol. 421, no. 6920, pp. 241-245, 2003 Epitaxial core¨Cshell and core¨Cmultishell nanowire heterostructures (Citations: 228) Lincoln J. Lauhon, Mark S. Gudiksen, Deli Wang, Charles M. Lieber Journal: Nature , vol. 420, no. 6911, pp. 57-61, 2002 Observation of metastable A¦Â amyloid protofibrils by atomic force microscopy (Citations: 189) James D. Harper, Stanislaus S. Wong, Charles M. Lieber, Peter T. Lansbury Journal: Chemistry & Biology - CHEM BIOL , vol. 4, no. 2, pp. 119-125, 1997 Coaxial silicon nanowires as solar cells and nanoelectronic power sources (Citations: 179) Bozhi Tian, Xiaolin Zheng, Thomas J. Kempa, Ying Fang, Nanfang Yu, Guihua Yu, Jinlin Huang, Charles M. Lieber Journal: Nature , vol. 449, no. 7164, pp. 885-889, 2007 General Synthesis of Compound Semiconductor Nanowires (Citations: 177) X. Duan, C. M. Lieber Journal: Advanced Materials - ADVAN MATER , vol. 12, no. 4, pp. 298-302, 2000 Diameter-controlled synthesis of single crystal silicon nanowires (Citations: 164) Y. Cui, L. J. Lauhon, M. S. Gudiksen, J. Wang, C. M. Lieber Published in 2001. Direct Ultrasensitive Electrical Detection of DNA and DNA Sequence Variations Using Nanowire Nanosensors (Citations: 159) Jong-in Hahm, Charles M. Lieber Journal: Nano Letters - NANO LETT , 2004 Ge/Si nanowire heterostructures as high-performance field-effect transistors (Citations: 157) Jie Xiang, Wei Lu, Yongjie Hu, Yue Wu, Hao Yan, Charles M. Lieber Journal: Nature , vol. 441, no. 7092, pp. 489-493, 2006 Highly Polarized Photoluminescence and Photodetection from Single Indium Phosphide Nanowires (Citations: 157) .Journal: Science , vol. 293, no. 5534, pp. 1455-1457, 2001 Indium phosphide nanowires as building blocks for nanoscale electronic and optoelectronic devices (Citations: 156) Xiangfeng Duan, Yu Huang, Yi Cui, Jianfang Wang, Charles M. Lieber Journal: Nature Electrical detection of single viruses (Citations: 156) Fernando Patolsky, Gengfeng Zheng, Oliver Hayden, Melike Lakadamyali, Xiaowei Zhuang, Charles M. Lieber catalysts, silane as reactant, and diborane as p-type dopant with aB Si ratio of 1:4,000. Arrays of silicon nanowire devices were defined by using photolithography with Ni metal contacts (14) on silicon substrates with a 600-nm-thick oxide layer. The metal contacts to the nanowires were isolated by subsequent deposi- tion of 50-nm-thick Si3N4 ... Journal: Proceedings of The National Academy of Sciences - PNAS , vol. 101, no. 39, pp. 14017-14022, 2004 Atomic structure and electronic properties of single walled carbon nanotubes (Citations: 149) T. W. Odom, J. L. Huang, P. Kim, C. M. Lieber Journal: Nature , 1998 Probing Electrical Transport in Nanomaterials: Conductivity of Individual Carbon Nanotubes (Citations: 147) H. Dai, E. W. Wong, C. M. Lieber Journal: Science , vol. 272, no. 5261, pp. 523-526, 1996 Functional Group Imaging by Chemical Force Microscopy (Citations: 142) C. Daniel Frisbie, Lawrence F. Rozsnyai, Aleksandr. Noy, Mark S. Wrighton, Charles M. Lieber Journal: Science , vol. 265, no. 5181, pp. 2071-2074, 1994 Synthesis and characterization of carbide nanorods (Citations: 129) Hongjie Dai, Eric W. Wong, Yuan Z. Lu, Shoushan Fan, Charles M. Lieber Journal: Nature , vol. 375, no. 6534, pp. 769-772, 1995 Nanowire Crossbar Arrays as Address Decoders for Integrated Nanosystems (Citations: 123) Z. Zhong, D. Wang, Y. Cui, M. W. Bockrath, C. M. Lieber Journal: Science , vol. 302, no. 5649, pp. 1377-1379, 2003 Single-crystal metallic nanowires and metal/semiconductor nanowire heterostructures (Citations: 117) Yue Wu, Jie Xiang, Chen Yang, Charles M. Lieber Journal: Nature , vol. 430, no. 6995, pp. 61-65, 2004 Directed assembly of one-dimensional nanostructures into functional networks (Citations: 108) Y. Huang, X. Duan, Q. Wei, C. M. Lieber Journal: Science , 2003 Atomic force microscopic imaging of seeded fibril formation and fibril branching by the Alzheimer's disease amyloid-¦Â protein (Citations: 102) James D. Harper, Charles M. Lieber, Peter T. Lansbury Jr Background: Amyloid plaques composed of the fibrillar form of the amyloid-¦Â protein (A¦Â) are the defining neuropathological feature of Alzheimer's disease (AD). A detailed understanding of the time course of amyloid formation could define steps in disease progression and provide targets for therapeutic intervention. Amyloid fibrils, indistinguishable from those derived from an AD brain, can be produced in ... Journal: Chemistry & Biology - CHEM BIOL , vol. 4, no. 12, pp. 951-959, 1997 Nanowire electronic and optoelectronic devices (Citations: 100) Yat Li, Fang Qian, Jie Xiang, Charles M. Lieber Journal: Materials Today - MATER TODAY , vol. 9, no. 10, pp. 18-27, 2006 Covalently functionalized nanotubes as nanometresizedprobes in chemistry and biology (Citations: 93) S. S. Wong, E. Joselevich, A. T. Woolley, C. L Cheung, C. M. Lieber Journal: Nature , 1998 Directed assembley of one-dimensional nanostructures into functional networks (Citations: 83) Y. Huang, X. Duan, Q. Wei, C. M. Lieber Journal: Science , 2001 Nanowire nanosensors (Citations: 71) Fernando Patolsky, Charles M. Lieber Journal: Materials Today - MATER TODAY , vol. 8, no. 4, pp. 20-28, 2005 Experimental Realization of the Covalent Solid Carbon Nitride (Citations: 68) C. Niu, Y. Z. Lu, C. M. Lieber Journal: Science , vol. 261, no. 5119, pp. 334-337, 1993 Fabrication of silicon nanowire devices for ultrasensitive, label-free, real-time detection of biological and chemical species (Citations: 68) |
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