A new low band gap polymer (pBEHTB) with an absorption onset at 800 nm is reported. When combined with a soluble fullerene derivative (PCBM), efficient electron transfer occurs after excitation of the polymer. Bulk heterojunction solar cells have been prepared with a response up to 800 nm, and an estimated power conversion efficiency of 0.9 %
We present model calculations to explore the potential of polymer/fullerene bulk heterojunction sola...
Polymer-fullerene bulk heterojunction (BHJ) solar cells have gained much attention in the past few y...
A high-molecular-weight conjugated polymer based on alternating electron-rich and electron-deficient...
A new low band gap polymer (pBEHTB) with an absorption onset at 800 nm is reported. When combined wi...
Two side-chain substituted poly(di-2-thienylthienopyrazine)s (PBEHTT and PTBEHT) are used as electro...
Bulk heterojunction solar cells comprising a new low band gap polymer (PBEHTB) based on alternating ...
Mixtures of conjugated polymers and fullerenes command considerable attention for application in org...
A-novel low-bandgap conjugated polymer (PTPTB, Eg = ~1.6 eV), consisting of alternating electron-ric...
Polymer solar cells were fabricated from a low band-gap alternating polyfluorene copolymer, APFO-Gre...
Interpenetrating networks of conjugated polymers and derivatives of buckminsterfullerene (C60) are r...
We demonstrate a simple and novel technique to improve the power conversion efficiency of polymer:fu...
Org. solar cells based on interpenetrating networks of conjugated polymer donors and fullerene-based...
Org. solar cells based on interpenetrating networks of conjugated polymer donors and fullerene-based...
A wide bandgap polymer donor PBDTS-DTBTO is designed and synthesized, which shows an optical bandgap...
We present model calculations to explore the potential of polymer/fullerene bulk heterojunction sola...
Polymer-fullerene bulk heterojunction (BHJ) solar cells have gained much attention in the past few y...
A high-molecular-weight conjugated polymer based on alternating electron-rich and electron-deficient...
A new low band gap polymer (pBEHTB) with an absorption onset at 800 nm is reported. When combined wi...
Two side-chain substituted poly(di-2-thienylthienopyrazine)s (PBEHTT and PTBEHT) are used as electro...
Bulk heterojunction solar cells comprising a new low band gap polymer (PBEHTB) based on alternating ...
Mixtures of conjugated polymers and fullerenes command considerable attention for application in org...
A-novel low-bandgap conjugated polymer (PTPTB, Eg = ~1.6 eV), consisting of alternating electron-ric...
Polymer solar cells were fabricated from a low band-gap alternating polyfluorene copolymer, APFO-Gre...
Interpenetrating networks of conjugated polymers and derivatives of buckminsterfullerene (C60) are r...
We demonstrate a simple and novel technique to improve the power conversion efficiency of polymer:fu...
Org. solar cells based on interpenetrating networks of conjugated polymer donors and fullerene-based...
Org. solar cells based on interpenetrating networks of conjugated polymer donors and fullerene-based...
A wide bandgap polymer donor PBDTS-DTBTO is designed and synthesized, which shows an optical bandgap...
We present model calculations to explore the potential of polymer/fullerene bulk heterojunction sola...
Polymer-fullerene bulk heterojunction (BHJ) solar cells have gained much attention in the past few y...
A high-molecular-weight conjugated polymer based on alternating electron-rich and electron-deficient...