TY - GEN
T1 - Organic solar cells
T2 - 235th National Meeting of the American Chemical Society, ACS 2008
AU - Bruzek, Matthew J.
AU - Anthony, John E.
AU - Parkin, Sean R.
PY - 2008
Y1 - 2008
N2 - While less efficient than their inorganic counterparts, solution-processed organic solar cells have potential for inexpensive production. Fullerenes have proven useful in organic solar cells because of their solid-state order and high electron mobility. However, their near insolubility in organic solvents makes solution-processing difficult. It has been shown that fullerenes and soluble acenes can be covalently bound by utilizing the Diels-Alder pathway. In doing so, the LUMO energy level of the fullerene is altered. Our goal was to create novel fullerene derivatives that would π-stack in the solid state, be soluble, and have a LUMO energy level suitable for use as an acceptor material in a solar cell. After purification, the derivatives were paired with a donor material in a bulk heterojunction solar cell and the performance tested. Our results yielded a new crystalline fullerene derivative which demonstrated photovoltaic behavior and may potentially be used in high-efficiency organic solar cells.
AB - While less efficient than their inorganic counterparts, solution-processed organic solar cells have potential for inexpensive production. Fullerenes have proven useful in organic solar cells because of their solid-state order and high electron mobility. However, their near insolubility in organic solvents makes solution-processing difficult. It has been shown that fullerenes and soluble acenes can be covalently bound by utilizing the Diels-Alder pathway. In doing so, the LUMO energy level of the fullerene is altered. Our goal was to create novel fullerene derivatives that would π-stack in the solid state, be soluble, and have a LUMO energy level suitable for use as an acceptor material in a solar cell. After purification, the derivatives were paired with a donor material in a bulk heterojunction solar cell and the performance tested. Our results yielded a new crystalline fullerene derivative which demonstrated photovoltaic behavior and may potentially be used in high-efficiency organic solar cells.
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M3 - Conference contribution
AN - SCOPUS:77955599659
SN - 9780841269859
T3 - ACS National Meeting Book of Abstracts
BT - American Chemical Society - 235th National Meeting, Abstracts of Scientific Papers
Y2 - 6 April 2008 through 10 April 2008
ER -
