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可持续能源与环境研究团队

来源:    发布时间:2018-07-12    点击次数:

主要研究方向:

1)能源与环境中的多相催化、光催化、热-光催化和光-电催化

2)高等电极材料的设计与合成

3)能源转化与贮藏器件 (太阳能电池,燃料电池,电池,和超级电容)

4)CO2的转化与利用

5)单分子光谱在能源和环境过程中的应用

6)环境健康过程的分子探针研究

发展可再生能源是应对能源与环境挑战的有效解决方案。可持续能源与环境研究团队致力于从事能源与环境方面的研究工作,特别是能源与环境中的高等材料与过程,取得了一大批首创成果,在国际著名学术杂志上发表学术论文200余篇,在清洁能源与绿色环境方面具有广泛的应用前景。

 

目前在以下方面开展的研究具有突出的成果:

1)在能源材料方面,本团队发明了一系列重要的化学反应并成功地应用于形貌可控的具有自支撑结构的三维石墨烯的合成,证明了其在能源和环境中的应用。

2)首次提出表面微孔的新概念并成功地合成了这种独特的材料,证明了其在能源中的应用。

3)高效可见光催化的研究方面,开拓了光热混合催化,从而使可见光光催化的效率提高了100倍。

4)二氧化碳综合利用方面,创造性地将二氧化碳转化为有价值的固体材料。

5)能源器件研究方面,首次合成了碱金属包埋的碳纳米材料,从而开拓了新一代高导电性大表面的电极材料,为能源器件的发展开辟了一个新方向。

6)柔性忆阻研究方面,发明了辉钼基柔性忆阻器,为低功耗的超高速存储与计算芯片的开发开辟了一个新方向。

 

 


Sustainable Energy and Environmental Research Team

Main research areas:

1)Heterogeneous catalysis, photocatalysis, thermo-photo hybrid catalysis, and photo-electro catalysis for energy and environment

2)Design and synthesis of advanced electrode materials

3)Energy conversion and storage devices (solar cells, fuel cells, batteries, and supercapacitors)

4)Conversion and utilization of carbon dioxide

5)Single-molecular spectrum for energy and environment

6)Molecular probe investigation on processes of health-related environment

Development of renewable energy is a promising solution for the challenge of energy and environment. The research of this team is focused on advanced materials and processes for energy and environment. More than 200 research papers have been published in prestigious journals. The developed materials and processes have great potential applications in clean energy and green environment.

 

The recent main achievements are listed as follows:

1)Numerous important chemical reactions were discovered for successful synthesis of three dimensional shape-controlled graphene. Furthermore, they are very promising for applications in energy and environment.

2)It is the first time to create the concept of surface-microporous graphene, synthesize the novel material, and demonstrate its application for energy.

3)For highly efficient visible light photocatalysis, novel photo-thermal hybrid processes were invented, leading to high efficiency of visible light that is 100 times larger than reported ones.

4)Novel processes were invented to convert carbon dioxide into valuable solid materials.

5)Na-embedded carbon nano materials were successfully synthesized for the first time. This would bring a bright future for electrode materials of energy devices.

6)Molybdenum-based memristors were invented, which creates a new direction for the development of ultra-high speed storage and computer chips with low energy consumption.

 

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新一代高效电池和超级电容    


                           0a7a8132ffdf83c7a0ca1749abef80b9.png                             
纳米材料的合成和应用

 


6fd40a10dac175a9d311fc3814ee524c.png

高效可见光催化
    
                                               4.png                                              
二维记忆材料

 

 

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