NKU fullerene research: Synthesis of next-generation fullerene-transition metal systems for solar cell applications. Hearn, H. & Walters, K., A. In Abstracts of Papers, 246th ACS National Meeting & Exposition, Indianapolis, IN, United States, September 8-12, 2013, pages CHED-223, 2013. American Chemical Society.
abstract   bibtex   
Our research group has been interested for several years in the synthetic design and spectroscopic examn. of fullerene-transition metal supramol. systems. Our long-term interest is the inclusion of these systems in solar cell devices, which will hopefully prove to be more efficient than currently available systems. Our initial work has focused on sym. substituted bipyridine ligands that serve as a bridge between these two systems. However, our initial spectroscopic studies have suggested that electron transfer does not efficiently occur between these two subunits under normal (e.g., room temp.) conditions. Therefore, we are considering "next-generation" systems that seek to improve this interaction. This poster presents some recent attempts to develop these systems to obtain these systems, including asym. bipyridine ligands (that will likely improve system soly.) and the incorporation of other transition metals (e.g., platinum and tungsten). Initial efforts to design rudimentary TiO2 dye-sensitized solar cells with our existing and new supramol. systems will also be presented. [on SciFinder(R)]
@inProceedings{
 title = {NKU fullerene research: Synthesis of next-generation fullerene-transition metal systems for solar cell applications.},
 type = {inProceedings},
 year = {2013},
 pages = {CHED-223},
 publisher = {American Chemical Society},
 id = {b85cf560-6f72-3ab7-8833-a469e821809e},
 created = {2014-08-30T18:44:49.000Z},
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 profile_id = {3e7260a9-6e8d-3223-930b-f5ea025e6d3f},
 last_modified = {2015-05-20T13:35:08.000Z},
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 authored = {true},
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 citation_key = {Hearn2013},
 source_type = {CONF},
 abstract = {Our research group has been interested for several years in the synthetic design and spectroscopic examn. of fullerene-transition metal supramol. systems.  Our long-term interest is the inclusion of these systems in solar cell devices, which will hopefully prove to be more efficient than currently available systems.  Our initial work has focused on sym. substituted bipyridine ligands that serve as a bridge between these two systems.  However, our initial spectroscopic studies have suggested that electron transfer does not efficiently occur between these two subunits under normal (e.g., room temp.) conditions.  Therefore, we are considering "next-generation" systems that seek to improve this interaction.  This poster presents some recent attempts to develop these systems to obtain these systems, including asym. bipyridine ligands (that will likely improve system soly.) and the incorporation of other transition metals (e.g., platinum and tungsten).  Initial efforts to design rudimentary TiO2 dye-sensitized solar cells with our existing and new supramol. systems will also be presented. [on SciFinder(R)]},
 bibtype = {inProceedings},
 author = {Hearn, Hannah and Walters, Keith A},
 booktitle = {Abstracts of Papers, 246th ACS National Meeting & Exposition, Indianapolis, IN, United States, September 8-12, 2013}
}
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