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Moving Electrons Purposefully through Single Molecules and Nanostructures: A Tribute to the Science of Professor Nongjian Tao (1963-2020).
ACS Nano ( IF 15.8 ) Pub Date : 2020-09-17 , DOI: 10.1021/acsnano.0c06017 Erica S Forzani 1 , Huixin He 2 , Joshua Hihath 3 , Stuart Lindsay 4 , Reginald M Penner 5 , Shaopeng Wang 6 , Bingqian Xu 7
ACS Nano ( IF 15.8 ) Pub Date : 2020-09-17 , DOI: 10.1021/acsnano.0c06017 Erica S Forzani 1 , Huixin He 2 , Joshua Hihath 3 , Stuart Lindsay 4 , Reginald M Penner 5 , Shaopeng Wang 6 , Bingqian Xu 7
Affiliation
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Electrochemistry intersected nanoscience 25 years ago when it became possible to control the flow of electrons through single molecules and nanostructures. Many surprises and a wealth of understanding were generated by these experiments. Professor Nongjian Tao was among the pioneering scientists who created the methods and technologies for advancing this new frontier. Achieving a deeper understanding of charge transport in molecules and low-dimensional materials was the first priority of his experiments, but he also succeeded in discovering applications in chemical sensing and biosensing for these novel nanoscopic systems. In parallel with this work, the investigation of a range of phenomena using novel optical microscopic methods was a passion of his and his students. This article is a review and an appreciation of some of his many contributions with a view to the future.
中文翻译:
有目的地通过单分子和纳米结构移动电子:向陶农建教授(1963-2020)的科学致敬。
25 年前,电化学与纳米科学相交叉,当时控制电子在单分子和纳米结构中的流动成为可能。这些实验产生了许多惊喜和丰富的理解。陶农建教授是开创性科学家之一,他们创造了推进这一新领域的方法和技术。更深入地了解分子和低维材料中的电荷传输是他实验的首要任务,但他也成功地发现了这些新型纳米系统在化学传感和生物传感中的应用。在这项工作的同时,他和他的学生也热衷于使用新颖的光学显微镜方法研究一系列现象。本文是对他的一些贡献的回顾和赞赏,并着眼于未来。
更新日期:2020-10-28
中文翻译:
有目的地通过单分子和纳米结构移动电子:向陶农建教授(1963-2020)的科学致敬。
25 年前,电化学与纳米科学相交叉,当时控制电子在单分子和纳米结构中的流动成为可能。这些实验产生了许多惊喜和丰富的理解。陶农建教授是开创性科学家之一,他们创造了推进这一新领域的方法和技术。更深入地了解分子和低维材料中的电荷传输是他实验的首要任务,但他也成功地发现了这些新型纳米系统在化学传感和生物传感中的应用。在这项工作的同时,他和他的学生也热衷于使用新颖的光学显微镜方法研究一系列现象。本文是对他的一些贡献的回顾和赞赏,并着眼于未来。
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