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Krueger, Taylor D. ; Tang, Longteng ; Giesbers, Gregory ; Van Court, Ray C. ; Zhu, Liangdong ; Robinson, Seri C. ; Ostroverkhova, Oksana ; Fang, Chong ( , The Journal of Physical Chemistry C)null (Ed.)
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Giesbers, Gregory ; Krueger, Taylor D. ; Van Schenck, Jonathan D. ; Kim, Ryan ; Van Court, Ray C. ; Robinson, Seri C. ; Beaudry, Christopher M. ; Fang, Chong ; Ostroverkhova, Oksana ( , The Journal of Physical Chemistry C)null (Ed.)
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Krueger, Taylor D. ; Giesbers, Gregory ; Van Court, Ray C. ; Zhu, Liangdong ; Kim, Ryan ; Beaudry, Christopher M. ; Robinson, Seri C. ; Ostroverkhova, Oksana ; Fang, Chong ( , Chemistry – A European Journal)more » « less
Abstract Organic semiconductor materials have recently gained momentum due to their non‐toxicity, low cost, and sustainability. Xylindein is a remarkably photostable pigment secreted by fungi that grow on decaying wood, and its relatively strong electronic performance is enabled by π–π stacking and hydrogen‐bonding network that promote charge transport. Herein, femtosecond transient absorption spectroscopy with a near‐IR probe was used to unveil a rapid excited‐state intramolecular proton transfer reaction. Conformational motions potentially lead to a conical intersection that quenches fluorescence in the monomeric state. In concentrated solutions, nascent aggregates exhibit a faster excited state lifetime due to excimer formation, confirmed by the excimer→charge‐transfer excited‐state absorption band of the xylindein thin film, thus limiting its optoelectronic performance. Therefore, extending the xylindein sidechains with branched alkyl groups may hinder the excimer formation and improve optoelectronic properties of naturally derived materials.
