Shandong
China
Shandong University of Technology - School of Chemistry & Chemical Engineering
ammonia synthesis, cathode catalyst, MXene, non-precious metal, ceramic proton-conducting electrochemical cell
Enteromorpha prolifera derived biochar, Fe doped ZIF-67, Multiple polarization, Microwave absorption properties
3D printing, Coke accumulation, Dry reforming of methane, Metal-carrier binding, Structured catalyst
Ammonia decomposition, Gas separation, Membrane reactor, MXene (Ti3C2TX)
composite membranes, high mechanical strength, MXene/GO, osmotic power, 2D-2D structure
Titanium nitride, Ti3C2Tx MXene, In‑situ nitridation, Interfacial heterostructure, Lithium-ion storage
Interfacial reaction, methanol steam reforming, CO-free, Hydrogen production, leaching
heterogeneous catalysis, methanol steam reforming, CO-free, hydrogen production, leaching
solid oxide fuel cell, Multi-physical field modeling, 3D printing, Concavo-convex electrolyte, Structure design
Metal-matrix composites, Microstructures, Electron microscopy, Magnetic properties
Hydrogen production, methanol steam reforming, leaching, Heterogeneous catalysis
Short hydrogen-bond network, Zone-regulated interfacial polymerization, Sodium dodecyl sulfate, Polyamide membrane, seawater desalination
B2O3, simple materials, nonlinear coefficient, voltage gradient, Sintering temperature
thermally regulating, g-C3N4 nanosheets, in-plane pores, Mixed-matrix membranes, methanol/dimethyl carbonate separation
Ti3C2Tx MXene, In‑situ construction, Interfacial heterostructure, Synergistic effect, Lithium-ion storage