Articles

It is challenging to separate middle-sized molecules from complex mixtures using traditional molecular sieves. Here a metal–organic framework has been developed with dynamic molecular pockets that can adjust and accommodate alkynes preferentially, realizing efficient production of high-purity ethylene from its mixtures with alkynes regardless of their molecular sizes.

Protein engineering is a powerful tool to create new proteins with useful functions and behaviors, but it is slow, laborious and requires specialized knowledge, limiting its broad application. Here, the authors present a system that combines AI and experimental automation to autonomously engineer proteins without human intervention.

Developing biointerfaces that combine the advantages of both monolithic and focal elements remains challenging. Now, a hydrogel that releases surface-modified granules and shows biointerface transition capability has been developed. This granule-releasing hydrogel manages colitis, accelerates wound healing, and facilitates cardiac tissue regeneration and mapping of cardiac activity with bioelectronic devices.

Carbon–carbon bonds are ubiquitous in lignin, limiting monomer yields from current depolymerization strategies mainly targeting C–O bonds. Now, a bifunctional hydrocracking approach uses a Pt/zeolite catalyst to break C–C bonds in lignin waste, achieving monocyclic hydrocarbon yields up to 54 C%.

A flexible hemline-shaped microfiber featuring periodic parallel microcavities with sharp edges and wedges was developed using microfluidics to achieve unidirectional liquid transport along arbitrary pathways.