Your search keyword '"López‐Acosta, Álvaro"' showing total 4 results

1. Photoinitiated Transient Self‐Assembly in a Catalytically Driven Chemical Reaction Cycle

Author

Valera, Jorge S., primary, López-Acosta, Álvaro, additional, and Hermans, Thomas, additional

Published

2024

2. Photopatterned Hybrid Supramolecular/Polymer Hydrogels for Controlled Heparin Release and Stem Cell Growth.

Author

López‐Acosta, Álvaro, Chivers, Phillip R. A., Piras, Carmen C., Kay, Alasdair G., Genever, Paul G., and Smith, David K.

Subjects

CROSSLINKED polymers, POLYMER colloids, CELL proliferation, STEM cells, CELL growth

Abstract

This paper reports hybrid gels combining a low‐molecular‐weight gelator (LMWG) and a photoinitiated crosslinked polymer gel (PG). The presence of the PG enhanced the stiffness and strength of the gel. The gels were loaded with heparin, and in the hybrid gel, the interpenetrated LMWG and PG networks somewhat restricted its release. In terms of stem cell growth, the hybrid gel significantly improved the performance of the PG because of the presence of the LMWG, which is an excellent substrate for stem cells in its own right. Furthermore, the presence of heparin in the hybrid gels also enhanced stem cell proliferation over longer timescales. Finally, these gels were photopatterned within the well‐plates used for tissue culture, with patterning helping control stem cell proliferation. In summary, these hybrid gels combine the advantageous features of both LMWG and PG: rheological performance is endowed by the PG with stem cell compatibility provided by the LMWG. The hybrid gels also control the release of the bioactive agent heparin and have capacity to be shaped and patterned. Patterned gels such as these, capable of directing stem cell growth, have potential in regenerative medicine. [ABSTRACT FROM AUTHOR]

Published

2024

3. Towards dual light control of a catalytically-driven chemical reaction cycle

Author

Valera, Jorge S., primary, López-Acosta, Álvaro, additional, and Hermans, Thomas, additional

Published

2024

4. Photoinitiated Transient Self-Assembly in a Catalytically Driven Chemical Reaction Cycle.

Author

Valera JS, López-Acosta Á, and Hermans TM

Abstract

Chemically fueled chemical reaction networks (CRNs) are essential in controlling dissipative self-assembly. A key challenge in the field is to store chemical fuel-precursors or "pre-fuels" in the system that are converted into activating or deactivating fuels in a catalytically controlled CRN. In addition, real-time control over catalysis in a CRN by light is highly desirable, but so far not yet achieved. Here we show a catalytically driven CRN that is photoinitiated with 450 nm light, producing activated monomers that go on to perform transient self-assembly. Monomer activation proceeds via photoredox catalysis, converting the monomer alcohol groups into the corresponding aldehydes that self-assemble into large supramolecular fibers. Monomer deactivation is achieved by organometallic catalysis that relies on pre-fuel hydrolysis to release formate (i.e. the deactivating fuel). Additionally, irradiation with 305 nm light accelerates the release of formate by photo-uncaging the pre-fuel, leading to a factor of ca. 2 faster deactivation of the monomer. Overall, we show transient self-assembly upon visible light photoactivation, and tunable life-times by ultraviolet light., (© 2024 The Author(s). Angewandte Chemie International Edition published by Wiley-VCH GmbH.)

Published

2024