Researchers from the Institute of Process Engineering (IPE) developed a precursor hydrolysis method (PHM) to achieve mass production of SiO2 multi-shell hollow spheres (SiO2 MHSs).

​A new zone-regulated interfacial polymerization strategy has been proposed by a research group led by Prof. WAN Yinhua, aiming to fabricate acid- and alkali-resistant nanofiltration (NF) membranes.

Researchers have developed a probiotic-based therapeutic that synergistically restores intestinal redox and microbiota homeostasis, relieved inflammation and reduced colonic damage.

Researchers from the Institute of Process Engineering developed an innovative sustainable, biodegradable, and biorecyclable material: high-entropy non-covalent cyclic peptide (HECP) glass.

Researchers developed an in vitro detection method for the translocation of M5GN2-PP-Dol , which has demonstrated the activity of Rft1 protein in catalyzing the transmembrane lipid bilayer translocation of M5GN2-PP-Dol.

Researchers from IPE have constructed a novel vaccine using cationic solid lipid nanoparticles as adjuvants combined with universal influenza antigen to form NM2e@DDAB/PLA nano-vaccine.

Researchers has proposed an ammonia induction strategy. In the process of loading copper oxide onto 13X zeolite by impregnation method, ammonia was introduced, and a Cu based complex formed firstly and then adsorbed on zeolite, which was converted...

Researchers reported an effective strategy to improve the reversible capacity and energy density of iron-based phosphate cathodes through the activation of inert maricite-type NaFePO4 (NFP) phase.

Researchers summarized the research progress in peptide self-assembly (PSA) and multi-scale process mechanisms.They proposed key directions for the design and development of next-generation peptide materials.