Synthesis of 1, 4‐dihydropyrrolo [3, 2‐b] pyrrole‐containing donor–acceptor copolymers and their optoelectronic properties
Abstract Donor–acceptor (D–A)‐conjugated polymers have achieved promising
performance metrics in numerous optoelectronic applications that continue to motivate …
performance metrics in numerous optoelectronic applications that continue to motivate …
Structural and solvent modulation of symmetry-breaking charge-transfer pathways in molecular triads
Whereas the photoinduced charge-transfer properties of electron donor–acceptor dyads are
now well understood, those of symmetric conjugated architectures containing several …
now well understood, those of symmetric conjugated architectures containing several …
Synthesis of 1, 2, 5-substituted pyrrole derivatives by a modification of the Reisch-Schulte reaction
MA Almaraz-Girón, C Aguilar-Lugo… - Journal of Molecular …, 2024 - Elsevier
A synthesis method was developed for the formation of several 1, 2, 5-substituted pyrrole
derivatives and were characterized by NMR, IR, UV–Vis spectroscopies and HRMS. This …
derivatives and were characterized by NMR, IR, UV–Vis spectroscopies and HRMS. This …
Substituent effect on the electronic and optical properties of newly designed pyrrole derivatives using density functional theory
MJ Aljaafreh, RK Hussein - Open Physics, 2024 - degruyter.com
This work explores six newly designed compounds obtained by several substitutions in 2, 5-
di (2-thienyl) pyrrole molecule. For this series of compounds, the electronic and optical …
di (2-thienyl) pyrrole molecule. For this series of compounds, the electronic and optical …
Expanding Color Control of Anodically Coloring Electrochromes Based on Electron-Rich 1,4-Dihydropyrrolo[3,2-b]pyrroles
AM Hawks, LM Daniel, VS Sorto, J Mauro… - ACS Applied Optical …, 2024 - ACS Publications
Anodically coloring electrochromes have received attention in recent years as high-contrast
alternatives to cathodically coloring electrochromes due to their superior optical contrast …
alternatives to cathodically coloring electrochromes due to their superior optical contrast …