White Yeti
National Hazard
Posts: 816
Registered: 20-7-2011
Location: Asperger's spectrum
Member Is Offline
Mood: delocalized
|
|
Nickel salts.
Hello everyone!
As many of you know, anodes that are not made of platinum degrade very rapidly when used in chlorate cells and other corrosive environments. You might
have seen NurdRage's video on how to make MnO2 coated titanium electrodes. His procedure seems very effective and I plan to use the principle of
baking water soluble salts onto the surface of a titanium electrode to form a layer of metal oxide.
However, I would like to go one step further and experiment with other transition metal oxides. In order to protect the activated surface of the
titanium electrode, I still plan to use a cobalt oxide layer, but I would like to experiment with nickel, manganese, vanadium, tin, zinc and copper,
and if possible, lead and antimony salts (basically the whole top row of the transition metals).
I've figured out which salts to use for V, Mn, Zn, Cu, Sb and Pb, but I'm having quite a bit of trouble finding nickel salts that satisfy the
aforementioned criteria.
Nickel nitrate doesn’t decompose before vaporizing, nickel carbonate is not water soluble and nickel sulfate decomposes at too high a temperature.
Any ideas?
Also on a side note, if there is a method for electrolytically depositing these metal oxides, I’d be interested to know.
|
|
bbartlog
International Hazard
Posts: 1139
Registered: 27-8-2009
Location: Unmoored in time
Member Is Offline
Mood: No Mood
|
|
Nickel formate might be a possibility. In oxygen (air?) it decomposes to NiO (and CO2) somewhere around 240C. However, the papers I turn up with a
quick search (e.g. http://art-srh.kau.edu.sa/Files/320/Researches/52263_22570.p... ) seem to suggest that the resulting oxide is in fine crystals or a porous mass;
so achieving a nice coating might be difficult.
|
|
White Yeti
National Hazard
Posts: 816
Registered: 20-7-2011
Location: Asperger's spectrum
Member Is Offline
Mood: delocalized
|
|
Ok. Thanks for the info. Is there by any chance a method for electrodepositing nickel oxide onto an electrode surface? I'm not yet ready to abandon
this idea because nickel oxide seems like one of the most promising oxide coatings after indium and tin oxides.
|
|