Aiming to achieve high separation selectivity and strong fouling resistance in nanofiltration membranes, researchers proposed a new strategy involving polyamide swelling rearrangement induced by ionic liquid, which facilitates polyelectrolyte deep...

Researchers developed a flexible and potent TCV platform via loading photothermal nanoparticles into tumor cells, which can be rationally applied to diverse tumor types to achieve on-demand boost of immune responses for suppressing tumor growth.

Researchers identified the structural origin of voltage hysteresis in manganese-rich NASICON-type cathodes and developed a new strategy for decreasing the defect concentration.

Researchers has developed a three-dimensional (3D) mesoporous biosensing-membrane with neighborhood nanostructures that shows excellent sensitivity and long-term stability.

Researchers have explored strategies to control the mechanical properties of hydrogels by using the liquid-liquid phase separation mediated self-assembly principle without changing the chemical composition of hydrogels.

Researchers has developed a family of eco-friendly glass of biological origin fabricated from biologically derived amino acids or peptides. The proposed glass is biodegradable and biorecyclable.

Researchers have developed a multifunctional hydrogel electrode with excellent conductivity, adhesion, and anti-interference properties, which can achieve high-quality wireless collection of prefrontal EEG signals.

Researchers reported a simple room-temperature route to construct a magical CoxB skin on the surface of sodium manganese hexacyanoferrates, demonstrating thousands-cycle level cycling lifespan and high energy density close to LiFePO4 for Li-ion ba...

Scientists from IPE developed a high-efficiency CoP1-xSx catalyst for Li-S batteries by tuning their local coordination structure.