Add to ORKGJournal ArticleThe distribution of chromophores in single polymer chains is revealed by photoluminescence excitation spectroscopy under excitation of the backbone and detection of emission from an end cap. Spectral broadening in excitation exceeds that in emission. An increase in vibronic coupling for shorter (higher energy) chromophores is resolved, leading to intrinsic spectral broadening and making higher energy units more effective donors. The results suggest routes to increasing absorption breadth while minimizing disorder as required for efficient photovoltaics
Low-gap conjugated polymers have enabled an impressive increase in the efficiencies of organic solar...
© 2013 Dr. Emma HooleyConjugated polymers consist of sequences of delocalised pi electrons along the...
Journal ArticleWe used a variety of optical probes to study the primary and long-lived photoexcitati...
Journal ArticleUsing low temperature single molecule spectroscopy on rigid-rod conjugated polymers w...
textThis dissertation is focuses on applying single molecule spectroscopy to the study of photophys...
textThis dissertation is focuses on applying single molecule spectroscopy to the study of photophys...
We study exciton migration in single molecular nanowires, dye-endcapped multichromophoric conjugated...
Using low temperature single molecule spectroscopy on rigid-rod conjugated polymers we are able to i...
The spectral breadth of conjugated polymers gives these materials a clear advantage over other molec...
The spectral breadth of conjugated polymers gives these materials a clear advantage over other molec...
The spectral breadth of conjugated polymers gives these materials a clear advantage over other molec...
Journal ArticleSingle molecule spectroscopy of rigid-rod ladder-type conjugated polymers reveals ind...
Vezie, Michelle S. et al.The specific optical absorption of an organic semiconductor is critical to ...
Journal ArticleSimultaneous surface enhanced Raman scattering (SERS) and fluorescence is demonstrate...
Journal ArticleFluorescence spectroscopy of conjugated polymers at the single molecule level provide...
Low-gap conjugated polymers have enabled an impressive increase in the efficiencies of organic solar...
© 2013 Dr. Emma HooleyConjugated polymers consist of sequences of delocalised pi electrons along the...
Journal ArticleWe used a variety of optical probes to study the primary and long-lived photoexcitati...
Journal ArticleUsing low temperature single molecule spectroscopy on rigid-rod conjugated polymers w...
textThis dissertation is focuses on applying single molecule spectroscopy to the study of photophys...
textThis dissertation is focuses on applying single molecule spectroscopy to the study of photophys...
We study exciton migration in single molecular nanowires, dye-endcapped multichromophoric conjugated...
Using low temperature single molecule spectroscopy on rigid-rod conjugated polymers we are able to i...
The spectral breadth of conjugated polymers gives these materials a clear advantage over other molec...
The spectral breadth of conjugated polymers gives these materials a clear advantage over other molec...
The spectral breadth of conjugated polymers gives these materials a clear advantage over other molec...
Journal ArticleSingle molecule spectroscopy of rigid-rod ladder-type conjugated polymers reveals ind...
Vezie, Michelle S. et al.The specific optical absorption of an organic semiconductor is critical to ...
Journal ArticleSimultaneous surface enhanced Raman scattering (SERS) and fluorescence is demonstrate...
Journal ArticleFluorescence spectroscopy of conjugated polymers at the single molecule level provide...
Low-gap conjugated polymers have enabled an impressive increase in the efficiencies of organic solar...
© 2013 Dr. Emma HooleyConjugated polymers consist of sequences of delocalised pi electrons along the...
Journal ArticleWe used a variety of optical probes to study the primary and long-lived photoexcitati...