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Chen
Lijia


Contact Data

Phone: + 34 935 801 853
Ext: 253
Fax: + 34 935 805 729
E-mail: [javascript protected email address]
Dep: Molecular Nanoscience and Organic Materials

Bio

I received his PhD Degree in 2014 at Southwest University in China and then worked in Chongqing Normal University as a Lecturer . I joined in NANOMOL Group since February 2017 as a post-doctoral researcher

Research interest

1. Control of surface interfaces in thin film organic field effect transistor

2. Interfacial process on organic semiconductor device

 

University Degrees

B. Sc. in Physics (Sep 2005 - Jun 2009)

School of Physics and Electronic Information, Langfang Teachers University, Hebei, China

 

 

 

 

 

Doctorate, University and Year:

Ph. D in Analytical Chemistry (Sep 2009 - Jun 2014) Faculty of Materials and Energy, Southwest University, Chongqing, China

Research area: Organic solar cells (OSC)

 Exchange student: School of Chemical and Biomedical Engineering, Nanyang Technological University, Singapore (Dec 2011 - May 2012)

Specialities

Organic solar cells

Thin film organic field effect transistor

 

 

Most significative academic merits

National Natural Science Foundation of China.

Interface electrons and exciton interactions generate free carriers in a novel organic solar cells

 (Grant No. 11504036) Jan 2016-Dec 2018, RMB 240,000.

 

 

Scientific Highlights

1. Graphene quantum-dot-doped polypyrrole counter electrode for high-performance dye-Sensitized solar cells
   L. J. Chen, C. X. Guo, Q. M. Zhang, Y. L. Lei, J. L. Xie, S.J. Ee, G. H. Guai, Q. L. Song C. M. Li
   ACS Appl. Mater. Interfaces 5, 2047 (2013)        
2.Photocurrent generated through exciton–electron interaction at the interface formed by traditional donor/acceptor semiconductors
   L. J. Chen, Q. M. Zhang, Y. L. Lei, T. Zhang, G. X. Niu, Z. H. Xiong, Q. L. Song*
   Phys. Chem. Chem. Phys 15, 16891 (2013)            
3. Environment-friendly energy from all-carbon solar cells based on fullerene-C60
   L. J. Chen, Q. L. Song , Z. H. Xiong, J. H. Huang, F. He.
   Sol. Energy Mater. Sol. Cells 95, 1138 (2011)   
4. E-h pair dissociation control the organic magnetoconductance response
   X. Xiong, L. J. Chen, Q. M. Zhang
   Sci. Bull, 60, 2108 (2015)                   (in Chinese)
5.Dispersion of P3HT gnelation and its influence on the performance of bulk heterojunction  organic solar cells based on P3HT:PCBM
   P. Li, L. J. Chen, J. Pan, G. X. Niu, T. Zhang, J. Xiang, L. Cai, Y. Hu, Y. J. Zhang, K. M. Ming, Q. L. Song
  Sol. Energy Mater. Sol. Cells 125, 96 (2014)                                                                       
6. Effect of band tail states on performance of organic solar cells
   F. He, L. J. Chen, F. R. Zhu, J. H. Huang, T. Zhang, G. X. Niu, J. Pan, Z. H. Xiong, Q. L. Song
   RSC Advances 3 20567 (2013)                      
7. P-type sensitized organic solar cells with cascade energy alignment
   J. H. Huang, L. J. Chen, F. He, T. Zhang, G. X. Niu, J. Pan, Z. H. Xiong, Q. L. Song
   J. Phys. D: Appl. Phys. 45, 195101 (2012)  
      

 
 
 
 

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