Glycopolymer membranes were prepared on QCM-D sensor chips by the solvent-assisted method. The membrane containing the glycopolymer with a random arrangement of carbohydrate units adsorbed more target protein.
The spent lithium-ion battery is upcycled into a dual-graphite battery via a solvent assisted thermal treatment.
Ionic conductivity of Li3PS4 if synthesized by a solvent-assisted method strongly depends on overall and surface morphology. Amorphous Li3PS4 shows a rather high conductivity which is only slightly enhanced when going to the (nano-)crystalline form.
Differences between protein adsorption to bilayers built on SiO2 or Au solid supports suggests that their behavior is affected by underlying substrate material and not just the proximal bilayer.
Rational design of a one-pot solvent-assisted method enables the production of Sn-substituted Li argyrodite with superionic conductivity, air stability, and Li compatibility, leading to good electrochemical performance of all-solid-state batteries.