The Shihu gold deposit, located in the middlesouth section of the core of the Fuping mantle branch structure, is hosted in the Archean Fuping Group and adjacent to the quartz diorite porphyrite. The gold deposit is th...The Shihu gold deposit, located in the middlesouth section of the core of the Fuping mantle branch structure, is hosted in the Archean Fuping Group and adjacent to the quartz diorite porphyrite. The gold deposit is the only large gold deposit with reserves of more than 30 tons gold discovered in western Hebei Province so far. In order to constrain the timing of mineralization of this ore deposit, this paper focuses on the isotopic dating of zircon and pyrite. Zircons in gold-bearing quartz veins are magmatic in origin and no hydrothermal zircon has been found in such quartz veins, indicating that zircons were derived from the wall rocks. U–Pb ages of zircons fall mainly in the two domains: 2492 ± 82 and 136 ± 4 Ma, respectively,indicative of the contribution of the Fuping-Group TTG gneiss and Yanshanian igneous rocks, respectively. The Re–Os isotopic compositions of pyrites in the gold-bearing quartz veins yield an isochron age of 127 ± 31 Ma. Combined with other dating results, we suggest that the main metallogenic age of the Shihu gold deposit is 120–127 Ma.展开更多
Photocatalytic H2evolution under visible light irradiation is an ideal process for solving energy shortage.The low cost of photocatalysts and high efficiency of hydrogen evolution are the two key factors to realize th...Photocatalytic H2evolution under visible light irradiation is an ideal process for solving energy shortage.The low cost of photocatalysts and high efficiency of hydrogen evolution are the two key factors to realize the industrialization of the process.The substitution of a noble‐metal cocatalyst with a non‐noble‐metal catalyst can significantly reduce the cost of the photocatalyst.The largescale synthesis and assembly of semiconductors and non‐noble‐metal cocatalysts to form photocatalysts through a simple method can further decrease the cost of photocatalysis.Here,we report a large‐scale and low‐cost coprecipitation method to form phosphide/CdS photocatalysts to realize photocatalytic H2evolution.CoP and MoP cocatalysts significantly enhanced the photocatalytic production of hydrogen.The optimal H2production rates on CoP/CdS and MoP/CdS were140and78μmol/h,which were7.0and4.0times higher than those obtained with bare CdS,respectively,and2.0times and1.1times higher than those obtained with1.0%Pt/CdS,respectively.This work provides a practical method for the large‐scale preparation of low‐cost photocatalysts.展开更多
基金funded by NSFC (No. 40872137)Hebei Natural Foundation (No. D2015403013)+1 种基金Science and Technology Research Project of Colleges and Universities in Hebei Province (No. ZC2016060)Doctor Foundation of Hebei GEO University (No. BQ201320)
文摘The Shihu gold deposit, located in the middlesouth section of the core of the Fuping mantle branch structure, is hosted in the Archean Fuping Group and adjacent to the quartz diorite porphyrite. The gold deposit is the only large gold deposit with reserves of more than 30 tons gold discovered in western Hebei Province so far. In order to constrain the timing of mineralization of this ore deposit, this paper focuses on the isotopic dating of zircon and pyrite. Zircons in gold-bearing quartz veins are magmatic in origin and no hydrothermal zircon has been found in such quartz veins, indicating that zircons were derived from the wall rocks. U–Pb ages of zircons fall mainly in the two domains: 2492 ± 82 and 136 ± 4 Ma, respectively,indicative of the contribution of the Fuping-Group TTG gneiss and Yanshanian igneous rocks, respectively. The Re–Os isotopic compositions of pyrites in the gold-bearing quartz veins yield an isochron age of 127 ± 31 Ma. Combined with other dating results, we suggest that the main metallogenic age of the Shihu gold deposit is 120–127 Ma.
基金supported by the National First-rate Discipline Construction Project of Ningxia (Chemical Engineering and Technology)the Major Innovation Projects for Building First-class Universities in China’s Western Region (ZKZD2017003)+2 种基金the University Research Project of Ningxia (NGY2015027)the National Natural Science Foundation of China (21263018)the Project of Science and Technology of Personnel of Study Abroad (Ningxia (2014) 486)~~
文摘Photocatalytic H2evolution under visible light irradiation is an ideal process for solving energy shortage.The low cost of photocatalysts and high efficiency of hydrogen evolution are the two key factors to realize the industrialization of the process.The substitution of a noble‐metal cocatalyst with a non‐noble‐metal catalyst can significantly reduce the cost of the photocatalyst.The largescale synthesis and assembly of semiconductors and non‐noble‐metal cocatalysts to form photocatalysts through a simple method can further decrease the cost of photocatalysis.Here,we report a large‐scale and low‐cost coprecipitation method to form phosphide/CdS photocatalysts to realize photocatalytic H2evolution.CoP and MoP cocatalysts significantly enhanced the photocatalytic production of hydrogen.The optimal H2production rates on CoP/CdS and MoP/CdS were140and78μmol/h,which were7.0and4.0times higher than those obtained with bare CdS,respectively,and2.0times and1.1times higher than those obtained with1.0%Pt/CdS,respectively.This work provides a practical method for the large‐scale preparation of low‐cost photocatalysts.
