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Progress in Chemistry 2009, Vol. 21 Issue (11): 2271-2284 Previous Articles   Next Articles

• Special issues •

Theoretical Chemistry and New Energy Sources

Chen Zhaoxu**;  Huang Yucheng;  Li Zhe;  Kang Guojun   

  1. (Institute of Theoretical and Computational Chemistry, Key Laboratory of Mesoscopic Chemistry of MOE, School of Chemistry and Chemical Engineering, Nanjing University, Nanjing 210093, China)
  • Received: Online: Published:
  • Contact: Chen Zhaoxu E-mail:zxchen@nju.edu.cn
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With the rapid consumption of fossil fuel and the severe environmental problems, new energy sources have become an issue all over the world. Focusing on the theoretical aspects, we review the investigations on adsorption of both atomic and molecular oxygen at metal Pt and its alloys. Studies of oxygen reduction reaction and removal of CO are also included. Furthermore the current status of first-principles approaches to the mechanism of methanol steam reforming catalyzed by Pd/ZnO is presented. For hydrogen storage we comment on the theoretical investigations on hydrogen storage by chemical and physical adsorption. Finally we discuss the application of theoretical methods to bulk hetrojunction solar cells and dye-sensitized solar cells.

Contents
1 Fuel cells
1.1 Adsorption and reduction of oxygen at cathode
1.2 Removal of CO
1.3 Methanol steam reforming on Pd/ZnO
2 Materials for hydrogen storage
2.1 Hydrogen storage by chemical adsorption
2.2 Hydrogen storage by physical adsorption
2.3 New materials for hydrogen storage
3 Solar cell materials
3.1 Materials in bulk hetrojunction solar cells
3.2 Materials in dye-sensitized solar cells
3.3 Comments on computational methods
4 Conclusion

Key words: theoretical chemistry, new energy sources, fuel cells, solar cells, hydrogen storage materials

CLC Number: 

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