Announcing ACS Nano Medicine We’re excited to announce our new journal— ACS Nano Medicine —a new addition to the family of ACS journals. “The broad scope of ACS Nano Medicine, encompassing fundamental ...

Biphasic absorbents show promise for energy-efficient CO2 capture. This study evaluates 1-(2-aminoethyl)piperazine (AEP)/triethylene glycol dimethyl ether (TEGDME)/H2O systems with low volatility. To ...

Antibodies are indispensable in biomedicine. However, conventional antibody development faces challenges, including high costs and lengthy production timelines spanning months. Here, we present a data ...

Direct synthesis of acid–base-stable copper carboxylate metal–organic frameworks (MOFs) is of great significance but faces substantial challenges. Herein, a nanoenvelope strategy was proposed to ...

Current toxicant identification mainly relies on subjective and blind toxicity testing and compound screening. This could overlook the sensitive toxicity end point and key toxicants due to the random ...

The application of a flexible Zn–air battery (FZAB) in next-generation wearable electronics is mainly hindered by the sluggish oxygen reduction/evolution reaction (ORR/OER) and unstable Zn/electrolyte ...

Acetate is an essential raw material in the chemical industry, supporting sustainable processes and efficient carbon utilization, driving interest in electrochemical CO-to-acetate conversion. However, ...

The advent of high-throughput sequencing technologies is transforming life sciences into a quantitative paradigm. However, existing sequencing technologies for nondirectly sequencable molecules, such ...

Designing ideal materials with simultaneously high selectivity, high capacity, fast kinetics, and moderate regeneration for hydrocarbon separations remains challenging, restricting the advance of ...

Efficient catalytic CO2 conversion by harnessing visible-light energy is a substantial challenge for sustainability. Photocatalytic materials consisting of light absorbers and catalysts have been ...

Transition metal dichalcogenides (TMDCs) hold significant promise in constructing next-generation high-performance electronic devices, potentially extending Moore’s law and enabling the realization of ...

The conversion of carbonyl compounds to functionalized nitriles enables both one-carbon homologation and rapid multifunctionalization, especially considering the diverse transformation potential of ...