Sciencemadness Discussion Board - Stability of the Cu(I) compounds


	Not logged in [Login ]

FAQ

Member List

Today's Posts Forum Stats

Stats

Back to:

Sciencemadness Discussion Board » Fundamentals » Chemistry in General » Stability of the Cu(I) compounds

Printable Version

Pages: 1 2

ElectroWin

Hazard to Others

Posts: 224
Registered: 5-3-2011
Member Is Offline

Mood: No Mood

posted on 21-5-2013 at 10:25

Colour of copper (II) salts depends on pH; becoming green in more acidic conditions; and lovely deep blue in basic conditions.

[Edited on 2013-5-21 by ElectroWin]

blogfast25

International Hazard

Posts: 10562
Registered: 3-2-2008
Location: Neverland
Member Is Offline

Mood: No Mood

posted on 21-5-2013 at 10:34

Quote: Originally posted by ElectroWin

Colour of copper (II) salts depends on pH; becoming green in more acidic conditions; and lovely deep blue in basic conditions.

[Edited on 2013-5-21 by ElectroWin]

Are you sure you're not confusing with the colour of the tetrachloro cuprate anion [CuCl₄^2-]? That is very green. Add HCl or NaCl to CuSO4 and it turns green, more intensely with chloride concentrations. But I've seen (and made) highly acidic copper nitrate solutions as blue as the ocean...

Acids and Bases: Brønsted–Lowry Theory (an interactive educational SM thread)

Quantum Mechanics/Wave Mechanics in Chemistry SM Thread

Solvation, solubility limits and solubility products: basic theory with worked examples (SM thread)

Calculus for beginners (SM thread): table of content

'Tie yourself to the mast my friend and the storm will end'

'This time next year Rodney, we'll be millionaires!'

woelen

Super Administrator

Posts: 8027
Registered: 20-8-2005
Location: Netherlands
Member Is Offline

Mood: interested

posted on 21-5-2013 at 10:52

Color of copper(II) does not directly depend on pH, it depends on the nature of the ligands.

With water-ligands, the color is sky blue. You have this when you dissolve copper sulfate or copper nitrate or copper sulfamate.
When water ligands are replaced by chloride-ligands, then the color goes from blue to yellow. Mixed water/chloride complexes are green.
Copper(II) with bromide as ligands (e.g. CuBr4(2-)) gives deep purple color. Try dissolving some CuSO4.5H2O in a saturated solution of KBr or NaBr and you'll see that color.
With ammonia ligands copper(II) has a deep royal blue color, very beautiful to see this complex.

Complexes of copper with certain ligands only exist in certain ranges of pH, e.g. the ammonia complex only exists in weakly alkaline to moderately strongly alkaline solutions. At very high pH (> 14) it decomposes and leads to formation of copper hydroxide.

Complexes of copper with chloride or bromide only exist at low pH to neutral pH.

The art of wondering makes life worth living...
Want to wonder? Look at https://woelen.homescience.net

blogfast25

International Hazard

Posts: 10562
Registered: 3-2-2008
Location: Neverland
Member Is Offline

Mood: No Mood

posted on 21-5-2013 at 13:07

Quote: Originally posted by woelen

At very high pH (> 14) it decomposes and leads to formation of copper hydroxide.

... which at that pH dissolves to blue cuprate [Cu(OH)₄^2-], another ligand causing blue colour of the complexed Cu²⁺ ion!

[Edited on 21-5-2013 by blogfast25]

Eddygp

National Hazard

Posts: 858
Registered: 31-3-2012
Location: University of York, UK
Member Is Offline

Mood: Organometallic

posted on 21-5-2013 at 13:39

Cu(NH3)4SO4 is an amazing colour. I strongly recommend its easy synthesis just to see it.

there may be bugs in gfind

[ˌɛdidʒiˈpiː] IPA pronunciation for my Username

Pages: 1 2

Sciencemadness Discussion Board » Fundamentals » Chemistry in General » Stability of the Cu(I) compounds