机译:通过表面质子化工艺施工2D / 2D G-C3N4 / RGO混合杂交异质结催化剂,具有出色的电荷分离能力和氮气光复制性能
Liaoning Shihua Univ Coll Chem Chem Engn &
Environm Engn Fushun 113001 Peoples R China;
Liaoning Shihua Univ Coll Chem Chem Engn &
Environm Engn Fushun 113001 Peoples R China;
Liaoning Shihua Univ Coll Chem Chem Engn &
Environm Engn Fushun 113001 Peoples R China;
Liaoning Shihua Univ Coll Chem Chem Engn &
Environm Engn Fushun 113001 Peoples R China;
Liaoning Shihua Univ Coll Chem Chem Engn &
Environm Engn Fushun 113001 Peoples R China;
Heilongjiang Univ Sch Chem &
Mat Sci Harbin 150080 Peoples R China;
机译:通过表面质子化工艺施工2D / 2D G-C3N4 / RGO混合杂交异质结催化剂,具有出色的电荷分离能力和氮气光复制性能
机译:用大型界面接触区域构建Bi2WO6 / RGO / G-C3N4 2D / 2D / 2D杂交Z方案的异质结,用于高效电荷分离和CO2和H2O的高性能光电进入太阳能燃料
机译:硫空位诱导的具有优异固氮性能的g-C3N4 / Zn_(0.11)Sn_(0.12)Cd_(0.88)S_(1.12)杂化异质结催化剂的构建
机译:与2D浮栅MLC NAND闪存相比,用于SCM / NAND闪存混合SSD的3D电荷陷阱TLC NAND闪存具有20%的系统性能增益
机译:通过在还原的氧化石墨烯上合理修饰的氮化碳静电组装获得高性能的2D / 2D杂化光催化剂
机译:全光谱驱动Ag-G-C3N4 / W18O49异质结催化剂的构建,具有突出的N2光致电极能力