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杜爱军:Nanomaterials for Energy, Electronics and Environmental Applications: Contribution from Theoretical Modeling toward Rational Design

发布日期:2016-04-25   点击量:

报告题目:

Nanomaterials for Energy, Electronics and Environmental Applications: Contribution from Theoretical Modeling toward Rational Design

报告人:

杜爱军

Queensland University of Technology

邀请人:

赵明文 教授

报告时间:

2013-12-12 09:30

报告地点:

知新楼C702量子报告厅

报告内容提示:

Nanoscale materials are difficult to manipulate and characterize experimentally because of their tiny size, which raises the conundrum of how to proceed forward quickly with exploration and subsequently design of properties. In principle, the material properties are completely determined by its electronic structure. Now ab initio calculations are able to realistically address fundamental questions of structure,stability, adsorption, molecular transformations, chemical reaction and electronic properties in nanoscale materials, facilitating the material design process by shedding light “from the bottom up”.This provides a powerful complement to experimental synthesis and characterization, allowing us to envisage new ways of designing and exploiting electronic functionality in novel materials.

My research aims to provide in-depth understanding of material properties at atomic/molecular level and develop novel strategies to manipulate the electronic structure of nanomaterials through advanced theoretical modelling in close interaction with the active experimental program. In this talk, I will present our key research findings in recent years to show how theoretical modelling can contribute to the rational design of nanoscale materials with potential applications in hydrogen storage [1], fuel cell [2], hydrogen purification [2], photovoltaic and photocatalysis [3], CO2 capture and storage [4a], gas separation [4b] and nanoelectronics [5] etc.

References:

[1] a) J. Am. Chem. Soc., 129 (2007) 10201; b) J. Amer. Chem. Soc. 132 (2010) 2876.

[2] a) J. Amer. Chem. Soc., 133 (2011) 20116; b) Chemical Communications, 47 (2011) 11843.

[3] a) J. Phys. Chem. Letts, 2 (2011) 894; b) J. Amer. Chem. Soc., 134 (2012) 4393.

[4] a) J. Am. Chem. Soc., 135 (2013) 8246; b) ChemSumChem, (2013), in press.

[5] a) Nano Letters 7 (2007) 3349; b) J. Amer. Chem. Soc. 131 (2009) 17354; c) J. Amer. Chem. Soc. 131 (2009) 1682; d) Phys. Rev. Letts.,108 ( 2012) 197207.

报告人简介:

Dr Aijun Du received his PhD in July 2002 at Fudan University of China. He had worked in Australian Institute for Bioengineering and Nanotechnology at University of Queensland for 7 years. In 2011, he was awarded both Australian Research Council both Future fellowship and Queen Elizabeth fellowship. Most recently, he moved to Queensland of University of Technology as an associate professor. His research lies at the interface of chemistry, physics and engineering, focusing on the development of innovative nanomaterials for clean energy, environmental science and nanoelectronics applications via advanced theoretical modeling.

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