TY - JOUR
T1 - Red-light controlled supramolecular co-assembly transformations of stiff stilbene and donor acceptor stenhouse adduct amphiphiles
AU - Chau, Anson Kwok Hei
AU - Cheung, Leong Hung
AU - Leung, Franco King Chi
N1 - Funding Information:
This work was supported financially by the Hong Kong Research Grants Council, Early Career Scheme (ECS 25301320) and General Research Fund (GRF 15300521), the Croucher Foundation (Croucher Innovation Award-2021), and the Centre for Eye and Vision Research (CEVR). We acknowledge the technical support from UCEA and ULS of PolyU. The authors thank Qian Wang for the drawing some of the graphics.
Funding Information:
This work was supported financially by the Hong Kong Research Grants Council, Early Career Scheme ( ECS 25301320 ) and General Research Fund ( GRF 15300521 ), the Croucher Foundation (Croucher Innovation Award-2021), and the Centre for Eye and Vision Research (CEVR). We acknowledge the technical support from UCEA and ULS of PolyU. The authors thank Qian Wang for the drawing some of the graphics.
Publisher Copyright:
© 2022 Elsevier Ltd
PY - 2023/1
Y1 - 2023/1
N2 - Amphiphiles are of great interest in the search of biomimicking supramolecular assembly for their assembling into complex and hierarchical structures in aqueous media across multiple length-scale. Incorporations of photoswitching units into amphiphiles provide a means to control the morphology of the resultant assembled structures by light irradiation, which is non-invasive and generally biocompatible. The use of light to induce morphological changes offers several extra merits, including selective excitation of photoswitches by different wavelengths, high temporal- and spatial-resolution. Macroscopic soft materials assembled from donor-acceptor Stenhouse adducts (DASA) amphiphiles (DA) in aqueous media are generally suffered from absorption peak broadening due to aggregation and requires strong white-light irradiation to induce a morphological change. Herein, we provide a new strategy for the restoration of red-light sensitivity of DA in aqueous medium, which requires a co-assembly system of DA with a six-membered fused ring stiff stilbene amphiphile (6SA). This 6SA:DA co-assembly forms supramolecular structures in both microscopic and macroscopic length-scale. Morphological changes of these supramolecular structures can be fine adjusted with red-light irradiation. The structural design, supramolecular assemblies and co-assemblies, and macroscopic scaffolds of photoresponsive SA and DA could enable potential visible-light controlled soft functional materials with improved biocompatibility and photosensitivity.
AB - Amphiphiles are of great interest in the search of biomimicking supramolecular assembly for their assembling into complex and hierarchical structures in aqueous media across multiple length-scale. Incorporations of photoswitching units into amphiphiles provide a means to control the morphology of the resultant assembled structures by light irradiation, which is non-invasive and generally biocompatible. The use of light to induce morphological changes offers several extra merits, including selective excitation of photoswitches by different wavelengths, high temporal- and spatial-resolution. Macroscopic soft materials assembled from donor-acceptor Stenhouse adducts (DASA) amphiphiles (DA) in aqueous media are generally suffered from absorption peak broadening due to aggregation and requires strong white-light irradiation to induce a morphological change. Herein, we provide a new strategy for the restoration of red-light sensitivity of DA in aqueous medium, which requires a co-assembly system of DA with a six-membered fused ring stiff stilbene amphiphile (6SA). This 6SA:DA co-assembly forms supramolecular structures in both microscopic and macroscopic length-scale. Morphological changes of these supramolecular structures can be fine adjusted with red-light irradiation. The structural design, supramolecular assemblies and co-assemblies, and macroscopic scaffolds of photoresponsive SA and DA could enable potential visible-light controlled soft functional materials with improved biocompatibility and photosensitivity.
KW - Donor-acceptor stenhouse adduct amphiphile
KW - Photoresponsive molecular amphiphile
KW - Red-light
KW - Stiff stilbene switch
KW - Supramolecular Co-Assembly
UR - http://www.scopus.com/inward/record.url?scp=85139276776&partnerID=8YFLogxK
U2 - 10.1016/j.dyepig.2022.110807
DO - 10.1016/j.dyepig.2022.110807
M3 - Journal article
AN - SCOPUS:85139276776
SN - 0143-7208
VL - 208
JO - Dyes and Pigments
JF - Dyes and Pigments
M1 - 110807
ER -