Color‐Tunable Supramolecular Luminescent Materials
Constructing multicolor photoluminescent materials with tunable properties is an attractive
research objective on account of their abundant applications in materials science and …
research objective on account of their abundant applications in materials science and …
Recent progress in 2D inorganic/organic charge transfer heterojunction photodetectors
Abstract 2D materials possess superior optoelectronic properties, such as ultrahigh mobility
and broadband photoresponse, making them one of the most vital platforms for diversified …
and broadband photoresponse, making them one of the most vital platforms for diversified …
Creating organic functional materials beyond chemical bond synthesis by organic cocrystal engineering
L Sun, W Zhu, X Zhang, L Li, H Dong… - Journal of the American …, 2021 - ACS Publications
Organic cocrystal engineering refers to two or more organic molecules stoichiometrically
combined and held together by noncovalent intermolecular interactions, which differs from …
combined and held together by noncovalent intermolecular interactions, which differs from …
Lateral epitaxial growth of two-dimensional organic heterostructures
Q Lv, XD Wang, Y Yu, CF Xu, YJ Yu, XY Xia… - Nature Chemistry, 2024 - nature.com
Two-dimensional organic lateral heterostructures (2D OLHs) are attractive for the fabrication
of functional materials. However, it is difficult to control the nucleation, growth and orientation …
of functional materials. However, it is difficult to control the nucleation, growth and orientation …
Minimizing non-radiative decay in molecular aggregates through control of excitonic coupling
Abstract The widely known “Energy Gap Law”(EGL) predicts a monotonically exponential
increase in the non-radiative decay rate (k nr) as the energy gap narrows, which hinders the …
increase in the non-radiative decay rate (k nr) as the energy gap narrows, which hinders the …
Water‐Soluble organic nanoparticles with programable intermolecular charge transfer for NIR‐II photothermal anti‐bacterial therapy
Extensive recent efforts have been put on the design of high‐performance organic near‐
infrared (NIR) photothermal agents (PTAs), especially over NIR‐II bio‐window (1000–1350 …
infrared (NIR) photothermal agents (PTAs), especially over NIR‐II bio‐window (1000–1350 …
Pillararene-based variable stoichiometry co-crystallization: a versatile approach to diversified solid-state superstructures
Variable stoichiometry co-crystals are important in solid-state supramolecular chemistry as
they allow studies of structure–property relationships while permitting the synthesis of new …
they allow studies of structure–property relationships while permitting the synthesis of new …
Structure/property control in photocatalytic organic semiconductor nanocrystals
Y Chen, C Yan, J Dong, W Zhou… - Advanced Functional …, 2021 - Wiley Online Library
Photocatalysis offers a practical solution to the ever increasing energy and environmental
issues by using a semiconductor to harvest freely available sunlight. Photoactive organic …
issues by using a semiconductor to harvest freely available sunlight. Photoactive organic …
Exciton delocalization counteracts the energy gap: a new pathway toward NIR-emissive dyes
Exciton coupling between the transition dipole moments of ordered dyes in supramolecular
assemblies, so-called J/H-aggregates, leads to shifted electronic transitions. This can lower …
assemblies, so-called J/H-aggregates, leads to shifted electronic transitions. This can lower …
Cocrystal engineering: Towards high-performance near-infrared organic phototransistors based on donor-acceptor charge transfer cocrystals
F Li, L Zheng, Y Sun, S Li, L Sun, F Yang… - Science China …, 2023 - Springer
Near-infrared organic phototransistors have wide application prospects in many fields. The
active materials with the high mobility and near-infrared response are critical to building high …
active materials with the high mobility and near-infrared response are critical to building high …