13658-69-0Relevant academic research and scientific papers
Self-assembly of a new 3D platelike ternary-oxo-cluster: An efficient catalyst for the synthesis of pyrazoles
Yang, Guoping,Liu, Yufeng,Lin, Xiaoling,Ming, Bangming,Li, Ke,Hu, Changwen
supporting information, p. 354 - 357 (2021/07/25)
A new metal-oxo-clusters-based inorganic framework [NaCo2Mo2O7(OH)3]n (NaCoMo), named as 3D platelike ternary-oxo-cluster, has been hydrothermally synthesized and characterized by single-crystal X-ray
2D network structure of zinc(II) complex: A new easily accessible and efficient catalyst for the synthesis of pyrazoles
Cao, Gang-Ming,Zeng, Guo-Dong,Li, Ke,Liu, Yu-Feng,Lin, Xiao-Ling,Yang, Guo-Ping
, (2021/07/16)
A Zn(II) coordination polymer {[Zn3(paz)(btc)2(H2O)8]·4H2O}n (noted as ZnPB), where paz = pyrazine, H3btc = trimesic acid, was synthesized and characterized by single-crystal X-r
Efficient Copper-Catalyzed Synthesis of Substituted Pyrazoles at Room Temperature
Wang, Haifeng,Sun, Xiangli,Zhang, Shuangling,Liu, Guanglu,Wang, Chunjie,Zhu, Lili,Zhang, Hui
supporting information, p. 2689 - 2692 (2018/12/14)
An efficient method for the synthesis of pyrazoles through a copper-catalyzed condensation reaction has been developed. The new catalytic system not only maintained a broad substrate scope but was also active under acid-free reaction conditions, overcoming the conventional requirement for an acid-catalyzed system. Furthermore, the copper catalyst enabled this reaction to be performed at room temperature and in a short reaction time.
