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Conducting and semiconducting, π-conjugated polymers are promising materials for micro- and nano-optoelectronic applications because of their widely tunable physical, electrical, and optical properties. These polymers have been used to fabricate a number of electronic devices including field-effect transistors, light-emitting diodes, and photovoltaic cells. However, widespread commercial application of these devices has yet to be realized, due in part to poor electronic transport characteristics and device degradation. Nanostructuring of conjugated polymers by various methods has demonstrated marked improvements in molecular ordering and electronic transport. In this research, nanoscale, tubular structures of semiconducting polymers fabrica...
Semiconducting polymers and small-molecules can be readily incorporated into electronic devices such...
This dissertation focuses on describing the research work done on poly(3-hexylthiophene) (P3HT), whi...
Semiconducting polymers are a versatile class of materials used for a variety of electronic applicat...
Conducting and semiconducting, π-conjugated polymers are promising materials for micro- and nano-opt...
Semiconducting and optoelectric conjugated polymers have potential in micro and nano-electronic appl...
© 2020 The Author(s) Conducting polymers have attracted tremendous attention because of their unique...
Conjugated polymers represent the next generation of conducting materials that will enable technolog...
The advent of special types of polymeric semiconductors, known as “polymer blends,” presents new opp...
This work is focused on understanding how molecular-level structural control can improve charge carr...
Semiconducting polymers are a promising class of materials for many organic electronic applications ...
I) Introduction p-Conjugated polymers inherently combine electronic properties of inorganic semicond...
ABSTRACT Conjugated polymers have unique material properties that make them promising for a wide ran...
The solution-processing of conjugated polymers, just like commodity polymers, is subject to solvent ...
The microstructure of conjugated polymers is heterogeneous on the length scale of individual polymer...
Semiconducting polymers are promising materials for next-generation, flexible electronics devices. O...
Semiconducting polymers and small-molecules can be readily incorporated into electronic devices such...
This dissertation focuses on describing the research work done on poly(3-hexylthiophene) (P3HT), whi...
Semiconducting polymers are a versatile class of materials used for a variety of electronic applicat...
Conducting and semiconducting, π-conjugated polymers are promising materials for micro- and nano-opt...
Semiconducting and optoelectric conjugated polymers have potential in micro and nano-electronic appl...
© 2020 The Author(s) Conducting polymers have attracted tremendous attention because of their unique...
Conjugated polymers represent the next generation of conducting materials that will enable technolog...
The advent of special types of polymeric semiconductors, known as “polymer blends,” presents new opp...
This work is focused on understanding how molecular-level structural control can improve charge carr...
Semiconducting polymers are a promising class of materials for many organic electronic applications ...
I) Introduction p-Conjugated polymers inherently combine electronic properties of inorganic semicond...
ABSTRACT Conjugated polymers have unique material properties that make them promising for a wide ran...
The solution-processing of conjugated polymers, just like commodity polymers, is subject to solvent ...
The microstructure of conjugated polymers is heterogeneous on the length scale of individual polymer...
Semiconducting polymers are promising materials for next-generation, flexible electronics devices. O...
Semiconducting polymers and small-molecules can be readily incorporated into electronic devices such...
This dissertation focuses on describing the research work done on poly(3-hexylthiophene) (P3HT), whi...
Semiconducting polymers are a versatile class of materials used for a variety of electronic applicat...
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