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新加坡國立大學材料科學與工程系歐陽建勇副教授講座通知
發布人:王亞明  發布時間:2019-01-02   瀏覽次數:10

應材料科學與工程學院王亞明教授邀請,新加坡國立大學材料科學與工程系歐陽建勇副教授將于16日至111日對我校進行學術講座,歡迎全校感興趣的師生參加。

 

報告Carbon Nanomaterials for Energy Conversion, Electrocatalysis and Wearable Electronics

時間:201917日(星期一),上午9:00—11:00

地點:哈工大科學園C3棟(特種陶瓷研究所)417報告廳

 

報告簡介:

Carbon nanomaterials including carbon nanotubes and graphene have been attracting great attention because of their interesting structure and properties and important application many areas. These carbon nanomaterials can be directly utilized or through the composite formation with other materials. Here, I will present some of our research works in the application of carbon nanotubes, graphene and graphene oxide for energy conversion and wearable electronics. We developed the gel coating methods to process carbon nanotubes or graphene. Graphene oxide can be used as a binder for the efficient processing of TiO2 nanoparticle pastes. These carbon nanoamterials were investigated as materials in dye-sensitized solar cells, polymer solar cells and electrocatalysis. We also studied their application as stretchable heaters and sensors.

 

報告二:Flexible Transparent Conductors for Optoelectronics

時間:201918日(星期二),上午9:00—11:00

地點:哈工大科學園C3棟(特種陶瓷研究所)417報告廳

 

報告簡介:

Optoelectronic devices can harvest or emit light. They require the active material(s) to be sensitive to light and at least one electrode to be transparent. Optoelectronic devices with high mechanical flexibility can have important application in many areas. In addition to the optical and electrical properties, the materials should have high mechanical flexibility. I will present some of our works on the development of intrinsically conductive polymers for the transparent electrode of optoelectronic devices. Indium tin oxide (ITO) is traditionally used as the transparent electrode of optoelectronic devices. But ITO has problems of scarce indium on earth and poor mechanical flexibility. Conducting polymers, carbon nanotubes, graphene and metal wire grids have been proposed to be the transparent electode materials. Among them, poly(3,4-ethylenedioxythiophene):poly(styrenesulfonate) is promising to be the next-generation transparent electrode material due to its solution processability, low cost and high transparency in visible range. However, the as-prepared PEDOT:PSS film obtained from PEDOT:PSS aqueous solution usually has conductivity below 1 S cm-1, remarkably lower than ITO. Here, I will present several novel methods to significantly enhance the conductivity of PEDOT:PSS. The conductivity can be enhanced to be more than 3000 S cm-1, which is higher than that of ITO on plastic and comparable to ITO on glass. We also demonstrate the application of the highly conductive polymers as the transparent electrode of polymer solar cells and perovskite solar cells.

 

報告三:Flexible Thermoelectric Polymers

時間:201919日(星期三),上午9:00—11:00

地點:哈工大科學園C3棟(特種陶瓷研究所)417報告廳

 

報告簡介:

Thermoelectric materials can directly convert heat into electricity. There is abundant of low-grade heat on earth but most of them are dissipated to ambient environment as waste heat. The conventional thermoelectric materials are inorganic semiconductors and semi-metals. But those inorganic materials have problems of scarce elements, high cost, high toxicity and poor mechanical flexibility. Thus, thermoelectric polymers have been gaining more and more attention because they consists of common elements like C, O, S and H and have merits of low density, low cost, low thermal conductivity and high mechanical flexibility. In particular, poly(3,4-ethylenedioxythiophene):poly(styrene sulfonate) (PEDOT:PSS) is very promising as the next-generation thermoelectric material because of its addition merit of solution processability. PEDOT:PSS can be dispersed in water and some polar organic solvents, and high-quality PEDOT:PSS films can be readily prepared by solution processing techniques like coating and printing. The main problem for thermoelectric polymers is their low power factor. It is important to develop novel methods to enhance the thermoelectric properties. In this talk, I will present some of our research work in developing high-performance thermoelectric polymers. we observed ae power factor to be >700 mW/(m K2), the highest in the world.

 

報告四:Organic-Inorganic Perovskite Materials and Solar Cells

時間:2019110日(星期四),上午9:00—11:00
地點:哈工大科學園C3棟(特種陶瓷研究所)417報告廳

 

報告簡介:

Organic-inorganic perovskite solar cells have attracted great attention due to their low fabrication coat and high power conversion efficiency. The high power conversion efficiency is related to high light absorption coefficient and long exciton diffusion length of the perovskite layer. The electronic structure and properties of the perovskite layer depend on the composition of the perovskite materials. We will some our results on perovskite materials and solar cells, including the crystallization of perovskites, the development of highly efficient and/or stable perovskite solar cells through composition engineering and interfacial engineering. We were the first to dope organic-inorganic perovskites with alkali metal ions. We also discovered that two-dimensional materials that can be thermally deposited can be used as efficient interfacial material for electron collection.

 

 

歐陽建勇副教授簡介:


歐陽建勇,于清華大學化學系、中國科學院化學所和日本分子科學研究所獲得學士、碩士和博士學位。然后在日本北陸先端科學技術大學院大學作助理教授和美國加州大學洛杉磯分校作博士后。2006年加入新加坡國立大學材料與科學工程學院,研究方向為有機電子、存儲器件、納米材料等方面的研究,在Nature Materials、Nature Nanotechnology、Nature Communications、Advanced Materials、Nano Letters等學術刊物上發表論文100余篇。多篇研究成果被MIT Technology Reviews、world journal、azonano.com、Nanotechweb、Journal of Materials Chemistry等報道或評為年度亮點文章。他的主要研究成果包括發明了世界上第一個高分子/納米顆粒存儲器和多次刷新可加工導電高分子電導和熱電性能的世界記錄。平均每篇文章的引用>80次。


http://www.mse.nus.edu.sg/staff/ouyang.php

http://www.dmse.nus.edu.sg/ouyanglab/index.html


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