Ìì·¢ÓéÀÖÆåÅÆ_Ìì·¢ÓéÀÖAPP-¹ÙÍø|ÏÂÔØ expertise in synthetic chemistry will be used to develop custom precursors for electrodeposition of a range of p-block elements and alloys. Synthesis and characterisation is carried out in-house at the Universities of Ìì·¢ÓéÀÖÆåÅÆ_Ìì·¢ÓéÀÖAPP-¹ÙÍø|ÏÂÔØ and Nottingham

Synthesis of starting materials

Starting materials for the target materials for electrodeposition in the ADEPT programme are rarely commercially available. Ìì·¢ÓéÀÖÆåÅÆ_Ìì·¢ÓéÀÖAPP-¹ÙÍø|ÏÂÔØ synthetic chemistry team (led by Professor Gill Reid) has the experience and expertise in-house to produce precursor molecules that:

• can be obtained (pure) reproducibly and in practically useful quantities,
• are resistant to oxygen and water (ideally powdered solids for ease of handling);
• have low lattice energies/solvation energies for dissolution and dissociation in low dielectric solvents;
• have suitable reduction potentials;
• are mutually compatible in a single, tuneable electrolyte;
• are thermally stable for high temperature electrodeposition

Mesoporous silica templates

The templates team, led by Professor Andrew Hector, focuses on the development of self-assembled mesoporous films for use as growth templates, and surface treatments to both self-assembled and lithographic templates to modify the properties of materials electrodeposited into them.