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戴宏杰院士

戴宏杰，物理化學家，美國科學與藝術學院院士、美國科學院院士、中國科學院外籍院士，美國斯坦福大學化學系杰克遜-伍德化學教授。戴宏杰教授是國際公認的碳基納米科學、可再生能源材料和納米醫(yī)學領域的領導者。他的開創(chuàng)性工作促進了準一維碳納米材料的化學和物理基礎研究，開辟了納米碳材料從納米管傳感器/場效應晶體管到用于鋁離子電池的石墨/石墨烯泡沫陰極、納米醫(yī)學的藥物輸送和光熱療法、以及用于體內(nèi)成像生物系統(tǒng)的近紅外-II (NIR-II)/短波紅外(SWIR)探針等創(chuàng)造性應用。具體來說，戴宏杰教授對碳基納米科學的貢獻包括在表面圖案化碳納米管生長成有序碳納米管陣列方面的開創(chuàng)性工作；首次合成石墨烯納米帶；基于單納米管的納米電子傳感器；基于納米管的彈道場效應晶體管；用于可再生能源的納米碳材料；發(fā)明以石墨和石墨烯泡沫為正極的可充電鋁離子電池；以及最近發(fā)明的無需脫鹽將海水直接電解生產(chǎn)H₂和O₂的技術。戴宏杰教授也是納米醫(yī)學的先驅和領導者。他開創(chuàng)了用于生物系統(tǒng)的碳納米管和石墨烯材料，包括藥物輸送和光熱療法。戴教授同時還開創(chuàng)了NIR-II/SWIR 熒光成像技術。戴宏杰教授對納米科學和納米醫(yī)學的貢獻獲得了包括 APS、ACS、MRS和NIH 在內(nèi)的四個主要專業(yè)學會以及組織的獎項。

王中林院士

王中林，材料科學家，中國科學院外籍院士、歐洲科學院院士、加拿大工程院國際院士，中國科學院北京納米能源所所長，美國佐治亞理工學院教授。王中林教授主要從事材料科學和納米科學研究。他在納米材料可控生長、表征和應用等多方面取得了多項具有國際重大影響力的原創(chuàng)性研究成果。王中林教授的研究團隊發(fā)現(xiàn)并開發(fā)了用于自供電系統(tǒng)和大規(guī)模藍色能源的納米發(fā)電機，這是一種前所未有的從環(huán)境和生物系統(tǒng)中收集能量的技術，可應用于個人電子產(chǎn)品、物聯(lián)網(wǎng) 、生物醫(yī)學設備、環(huán)境監(jiān)測和機器人技術。王中林教授的創(chuàng)新成果還為人們從日常生活的無污染來源中獲取大規(guī)模能源提供了一種革命性的方法。通過此研究成果人們有可能從海浪中獲取大量能量，并解決未來世界的能源需求。王中林團隊建立了基于壓電電子學與壓電光電子學效應的第三代半導體新的研究領域，并發(fā)現(xiàn)了六個新物理效應：壓電電子學效應、壓電光電子學效應、壓電光子學效應、摩擦伏特效應、熱釋光電子效應和交流光伏效應。王中林教授在整個職業(yè)生涯中都是開拓新領域的先驅，他已成為納米領域全球領軍人物之一。

Ninth Nano Research Award goes to Hongjie Dai and Zhong Lin Wang

Tsinghua University Press and Springer Nature honor two of the world’s leading experts in nanoscience and nanotechnology

Two outstanding scientists have been awarded the annual Nano Research Award which is sponsored by Tsinghua University Press (TUP) and Springer Nature. Hongjie Dai is the Professor at Stanford University. Zhong Lin Wang is the Professor at Georgia Institute of Technology. Both winners have been invited to give keynote speeches at the Sino-US Forum on Nanoscale Science and Technology. 

Professor Hongjie Dai

Professor Hongjie Dai won the Nano Research Award for his pioneering contributions to carbon based nanoscience and nanomedicine. Dai is the Jackson-Wood Professor of Chemistry at Stanford University. He is internationally recognized as a leader in carbon-based nanoscience, renewable energy materials and nanomedicine. His pioneering work has facilitated basic research in chemistry and physics of quasi-1D carbon nano-materials, and opened up creative applications of nano-carbon materials from nanotubes sensors/field effect transistors, to graphite/graphene foam cathodes for aluminum ion battery, drug delivery and photothermal therapy for nanomedicine, and near-infrared-II (NIR-II)/short-wave infrared (SWIR) probes for imaging biological systems in vivo. Specifically, Dai's contributions to carbon-based nanoscience include pioneering work on surface patterned carbon nanotube growth into ordered carbon nanotube arrays; the first synthesis of graphene nanoribbons; single-nanotube based nanoelectronic-sensors; nanotube based ballistic field-effect transistors; nano-carbon materials for renewable energy; invention of a rechargeable Al ion battery using graphite and graphene foam as the positive electrode; and recently, direct electrolysis of seawater to produce H₂ and O₂ without the need of desalination. Dai is also a pioneer and leader in nanomedicine. He pioneered carbon nanotube and graphene materials for biological systems including drug delivery and photothermal therapy. Lastly Dai pioneered NIR-II/SWIR fluorescence imaging. Dai’s contribution to nanoscience and nanomedicine has led to awards from four major professional societies/organizations including the APS, ACS, MRS, and NIH.

Professor Zhong Lin Wang

Professor Zhong Lin Wang was selected for the award in recognition of his discovery and development of nanogenerators for selfpowered systems and large-scale blue energy, an unprecedented technology for harvesting energy from the environment and biological systems, for applications in personal electronics, internet of things, biomedical devices, environmental monitoring and robotics. Prof. Wang’s innovations also provide a revolutionary approach for obtaining large-scale energy from daily life non-polluting sources with potential to harvest huge amounts of energy from ocean waves, aimed at solving the future energy needs of the world. His discovery and breakthroughs in developing nanogenerators have established the principle and technological road map for using mechanical energy for powering mobile sensors. He also coined the fields of piezotronics and piezo-phototronics for the third generation semiconductors, and discovered a few new physics effects.

The Nano Research Award, established by the journal Nano Research together with TUP and Springer in 2013, is awarded for outstanding contributions to nano research by an individual scientist. The winner is selected by the Award Committee (the Editors-in-Chief, Associate Editors, representatives from TUP and Springer Nature) after receiving nominations from the members of the Nano Research Editorial Board. The first twelve recipients of the honor were Prof. Charles M. Lieber of Harvard University, Prof. Paul Alivisatos and Prof. Peidong Yang, both of the University of California Berkeley, Prof. Yi Xie of University of Science and Technology of China, Prof. Lei Jiang of Chinese Academy of Sciences, Prof. Chad Mirkin of Northwestern University, Prof. Xinhe Bao of Chinese Academy of Sciences, Prof. Omar M. Yaghi of the University of California Berkeley, Prof. Dongyuan Zhao of Fudan University, Prof. John A. Rogers of Northwestern University, Prof. Zhongfan Liu of Peking University, Prof. Cees Dekker of Delft University of Technology.