1. Facing the frontiers of science and technology: using in-situ characterization to study the intrinsic catalytic activity, electrochemical stability and structure-activity relationship of the modification of the catalyst, to clarify the related regulation mechanism; combining electrochemical in-situ spectroscopy and mass transfer simulation, to study the internal relationship between the structure of the catalytic layer and the expression of catalytic activity, and explore the mechanism of intrinsic activity expression.
2. Facing major needs: In response to the current high cost of hydrogen production, high electrolysis voltage, and the need to improve the life of the electrolytic cell. To develop efficient and stable electrocatalysts and the construction of more effective membrane electrode mass transfer channels, to break through bottleneck such as the excessively use of precious metal, large electrolytic voltage and low electrolytic cell life.