15598-87-5Relevant articles and documents
Grob et al.
, p. 2183 (1976)
Liquid-phase oxidation of alkanes with molecular oxygen catalyzed by high valent iron-based perovskite
Shibata, Satomi,Sugahara, Kosei,Kamata, Keigo,Hara, Michikazu
supporting information, p. 6772 - 6775 (2018/06/26)
Hexagonal BaFeO3-δ containing high valent iron species acted as an efficient heterogeneous catalyst for the aerobic oxidation of alkanes without the need for additives. The activity of BaFeO3-δ was much higher than that of typical Fe3+/Fe2+-containing iron oxide-based catalysts, and the recovered catalyst could be reused without significant loss of catalytic performance.
Synthesis and biological evaluation of memantine nitrates as a potential treatment for neurodegenerative diseases
Liu, Zheng,Yang, Si,Jin, Xiaoyong,Zhang, Gaoxiao,Guo, Baojian,Chen, Haiyun,Yu, Pei,Sun, Yewei,Zhang, Zaijun,Wang, Yuqiang
supporting information, p. 135 - 147 (2017/02/05)
A series of memantine nitrate derivatives, as dual functional compounds with neuroprotective and vasodilatory activity for neurodegenerative diseases, was designed and synthesized. These compounds combined the memantine skeleton and a nitrate moiety, and thus inhibited the N-methyl-d-aspartic acid receptor and released NO in the central nervous system. The biological evaluation results revealed that the new memantine nitrates were effective in protecting neurons against glutamate-induced injury in vitro. Moreover, memantine nitrates dilated aortic rings against phenylephrine-induced contraction. The structure-activity relationships of neuroprotection and vasodilation were both analyzed. In further studies, compound MN-05 significantly protected cortical neurons by inhibiting Ca2+ influx, reducing free radical production and maintaining the mitochondrial membrane potential. Further research on MN-05 is warranted.