Enhance the performances of dye-sensitized solar cell by a new type of sensitizer to co-sensitize zinc oxide photoelectrode with ruthenium complex
Author:
Publisher
Elsevier BV
Subject
Process Chemistry and Technology,General Chemical Engineering
Reference31 articles.
1. Electronic structure and spectral properties of the triarylamine–dithienosilole dyes for efficient organic solar cells;Minaev;Dyes Pigm,2011
2. N-Aryl stilbazolium dyes as sensitizers for solar cells;Blackburn;Dyes Pigm,2011
3. Quantum-chemical study of effect of conjugation on structure and spectral properties of C105 sensitizing dye;Baryshnikov;Opt Spectrosc,2011
4. Improved efficiency of over 10% in dye-sensitized solar cells with a ruthenium complex and an organic dye heterogeneously positioning on a single TiO2 electrode;Fan;J Phys Chem C,2011
5. A new photoanode architecture of dye sensitized solar cell based on ZnO nanotetrapods with no need for calcination;Chen;Electrochem Commun,2009
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