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As a potential candidate for grid‐scale energy storage technology, aqueous Zn‐ion batteries (ZIBs) have attracted considerable attention due to their intrinsic safety, environmental friendliness, and ease of fabrication. Nevertheless, the road to industry for this technique is hindered by serious issues, including undesired side reactions, random growth of the Zn dendrites, electrode passivation,...
Solar‐Driven Desalination
In article number 2307005, Liming Wang, Xiaohong Qin, and co‐workers present an electrospun nanofiber‐based all‐in‐one vertically interfacial solar evaporator, endowed with a high steam generation rate, steady omnidirectional evaporation, and enduring ultrahigh‐salinity brine desalination. Salt ions can be effectively exchanged with the bulk water due to strong action of...
Solar‐driven interfacial desalination is widely considered to be a promising technology to address the global water crisis. This study proposes a novel electrospun nanofiber‐based all‐in‐one vertically interfacial solar evaporator endowed with a high steam generation rate, steady omnidirectional evaporation, and enduring ultrahigh‐salinity brine desalination. In particular, the electrospun nanofiber...
Single‐walled carbon nanotubes (SWCNTs) that have a reproducible distribution of chiralities or single chirality are among the most competitive materials for realizing post‐silicon electronics. Molecular doping, with its non‐destructive and fine‐tunable characteristics, is emerging as the primary doping approach for the structure‐controlled SWCNTs, enabling their eventual use in various functional...
Airborne particulate matter (PM) pollutants, especially with nanoscale size, have caused serious public health issues. The global demand for high‐performance and recyclable face masks is increasing dramatically, especially during the COVID‐19 pandemic. However, present masks suffer from low‐efficiency interception of PM0.3/pathogen, limited air permeability, and incapacity to reuse and recycle. Here,...
Protein therapy has the potential to revolutionize medicine, but the delivery of multiple proteins is challenging because it requires the development of a strategy that enables different proteins to be combined together and transported not only into cells, but also to the desired cell compartments, such as the nucleus. Here, an efficient intranuclear protein delivery nanoplatform based on modified...
Understanding the cellular uptake of nanomaterials (NMs) is a fundamental and critical issue for uncovering biomedical effects of NMs and facilitating their practical applications in the clinic. In this Review, by highlighting the differences of NMs cellular uptake between in vitro and in vivo, a focus on reviewing recent works about the effects of four physicochemical parameters of NMs (size, rigidity,...
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