Two-dimensional g-C3N4 nanosheets with few-layer thickness, ensuring equivalent charge migrations to various Pd facets, provide an ideal model system for reliably examining the facet selectivity of Pd co-catalysts. It reveals that reduction of CO2 can occur better on Pd{111} facets while H2O prefers to generate H2 on Pd{100}.
Employing cellular environment for the self-assembly of supramolecular nanofibers for biological applications has been widely explored. But using one precursor to differentiate the extra- and intracellular environments to self-assemble into two different nanofibers remains challenging. With the knowledge that the extracellualr environment of some cancer cells contains large amounts of alkaline phosphatase (ALP) while their intracellular environment is glutathione (GSH)-abundant in mind, we rationally designed a precursor Cys(SEt)-Glu-Tyr(H2PO3)-Phe-Phe-Gly-CBT (1) that can efficiently yield amphiphilic 2 and 2-D to self-assemble into two different nanofibers in hydrogels under the sequential treatment of ALP and GSH. We envision that, by employing a click condensation reaction, this work offers a platform for facilely postmodulation of supramolecular nanofibers, and the versatile precursor 1 could be used to kill two birds with one stone.
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