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In recent years, extensive research efforts have been made to develop novel π-conjugated materials including small molecules, oligomers, and polymers, and to use them in various applications such as organic-field effect transistors (OFET), solar cells, hole transfer materials (HTM) in perovskite solar cells, organic light emitting diodes (OLED), coatings and so on. These materials offer many technological advantages over their inorganic counterparts, such as their low weight, low fabrication cost, foldability, and easy conformation onto non-flat surfaces.
To obtain high-performing materials, molecular design concept is critical. Optical and electrochemical properties, solubility, and the charge transfer ability can all be easily controlled through adjusting the molecular chemical structures and their neighboring molecular interactions. For instance, (i) enlarging the size of alky chains could enhance the materials’ solubility; (ii) increasing the π-conjugation system or introducing electron-rich and efficient unities on the polymer backbone could reduce the band gap or bathochromic shift in the optical absorption; (iii) self-assembled or crystalline conjugated materials often show high charge transfer mobility.
In this Research Topic, we therefore welcome Original Research, Mini Reviews, Reviews, and Perspectives on themes including but not limit to the following sub-topics:
• New conjugated pigments: synthesis and characterizations
• Design and synthesis novel π-conjugation materials
• Applications of π-conjugated materials such as electronic devices, coatings, windows, etc.
In recent years, extensive research efforts have been made to develop novel π-conjugated materials including small molecules, oligomers, and polymers, and to use them in various applications such as organic-field effect transistors (OFET), solar cells, hole transfer materials (HTM) in perovskite solar cells, organic light emitting diodes (OLED), coatings and so on. These materials offer many technological advantages over their inorganic counterparts, such as their low weight, low fabrication cost, foldability, and easy conformation onto non-flat surfaces.
To obtain high-performing materials, molecular design concept is critical. Optical and electrochemical properties, solubility, and the charge transfer ability can all be easily controlled through adjusting the molecular chemical structures and their neighboring molecular interactions. For instance, (i) enlarging the size of alky chains could enhance the materials’ solubility; (ii) increasing the π-conjugation system or introducing electron-rich and efficient unities on the polymer backbone could reduce the band gap or bathochromic shift in the optical absorption; (iii) self-assembled or crystalline conjugated materials often show high charge transfer mobility.
In this Research Topic, we therefore welcome Original Research, Mini Reviews, Reviews, and Perspectives on themes including but not limit to the following sub-topics:
• New conjugated pigments: synthesis and characterizations
• Design and synthesis novel π-conjugation materials
• Applications of π-conjugated materials such as electronic devices, coatings, windows, etc.
Keywords: π-Conjugated Materials, conjugated pigments
Important Note: All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.
