Themed collection Bio-inspired Interfacial Materials and interfacial Chemistry

Droplet-based biosensors have attracted much attention and their performances are closely related to the evaporation of sessile droplets. Herein, an up-to-date review of the evaporation of sessile droplets towards sensitive biosensing.

Based on the coffee ring effect, we have reviewed the recent progress in controllable patterning of nanoparticles using solution transfer approaches, as well as the mechanism involved and the applications in various fields.

In order to better understand the structure and function of biological cell membranes, various artificial systems have been developed.

This review focuses on the biomimetic, improved, and intelligent gating behaviours of artificial ion channels based on physical and chemical stimuli.

The design principles, evaporation systems and functional designs towards interfacial solar steam generation for clean water production.

A scalable strategy to improve the toughness of a general type of CNT fiber through a bioinspired interfacial design while maintaining the conductivity provides unique design principles for the high performance flexible electronic materials.

The authors leverage nonequilibrium chemistry to shape the temporal profile of surface tension in an aqueous system.

The topography of magnetoresponsive semi-infused adaptive surface is reversibly switched between semi-infused and oil-accumulated states for stimuli-free pinning of droplets in a tilted state and on-demand motion of liquid droplets.

Bioinspired hedgehog coating is superomniphobic to liquid with surface tension of 25.3 mN m⁻¹, and repels liquids with surface tensions down to 16 mN m⁻¹ when it is converted to a one-step liquid infused surface utilizing its photocatalytic property.

The use of biologically-derived nanoparticles from mung beans for combination chemo-ferroptosis therapy and magnetic resonance imaging is reported, which highlights the potential of the nanoparticles for biomedical applications.