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- The chemical effects of radiative thermal neutron capture. Part 1.—Permanganates. K. J. McCallum, A. G. Maddock
, Trans. Faraday Soc.
, 1953
, 49
, 1150
- Novel palladium-based nanomaterials for multifunctional ORR/OER/HER electrocatalysis. Hangxuan Li, Ge Li
, J. Mater. Chem. A
, 2023
, 11
, 9383
- 687. Structure and reactivity of the oxyanions of transition metals. Part XIII. The effect of environment and certain complex-forming cations on the visible and ultraviolet absorption spectra of permanganate and chromate. M. C. R. Symons, P. A. Trevalion
, J. Chem. Soc.
, 1962
, 3503
- The thermal decomposition of silver permanganate. E. G. Prout, F. C. Tompkins
, Trans. Faraday Soc.
, 1946
, 42
, 468
- 669. The thermal decomposition of cœsium permanganate. P. J. Herley, E. G. Prout
, J. Chem. Soc.
, 1959
, 3300
- General and physical chemistry
, J. Chem. Soc., Abstr.
, 1922
, 122
, ii329
- Synthesis of azobenzenes: the coloured pieces of molecular materials. Estíbaliz Merino
, Chem. Soc. Rev.
, 2011
, 40
, 3835
- Biogenetically inspired syntheses of alkaloid natural products. Justin Kim, Mohammad Movassaghi
, Chem. Soc. Rev.
, 2009
, 38
, 3035
- An unknown component of a selective and mild oxidant: structure and oxidative ability of a double salt-type complex having κ1O-coordinated permanganate anions and three- and four-fold coordinated silver cations. Gréta Bettina Kovács, Nóra V. May, Petra Alexandra Bombicz, Szilvia Klébert, Péter Németh, Alfréd Menyhárd, Gyula Novodárszki, Vladimir Petrusevski, Fernanda Paiva Franguelli, József Magyari, Kende Béres, Imre Miklós Szilágyi, László Kótai
, RSC Adv.
, 2019
, 9
, 28387
- 382. The thermal decomposition of lead oxalate. L. L. Bircumshaw, Ivan Harris
, J. Chem. Soc.
, 1948
, 1898