The continuous solid-state catalytic transesterification technology independently developed by CPC can produce various bio-based fatty acid esters. The process has the advantages of high conversion rate and low waste, and is in line with the characteristics of low-carbon environmental protection and circular economy.
Advanced high-entropy nanomaterial fabrication technology for hydrogen production from seawater splitting
Integrated Method for Improving Production Rate of Biogas Using Lignocellu-losic Depolymerization with Anaerobic Digestion
Sustainable development of CO2: CO2 chemically converted to magnetic carbon nanofibers and their environment and biomedical applications
High practicality surface modification technology for enhancing hydrogen production via water electrolysis and solid-state hydrogen storage efficiency
Technology maturity:Experiment stage
Exhibiting purpose:Display of scientific results
Trading preferences:Negotiate by self
Coming soon!