Integration of electrochemistry and Green Chemistry: A roadmap for scientific innovation

Bond, Alan (Primary Chief Investigator (PCI))

School of Chemistry

Project: Research

Project Description

Nuclear Magnetic Resonance Spectra (Magnetic Resonance Imaging) applications are revolutionized constantly by integration of instrumental and mathematical advances that transform seemingly incomprehensible data into instantly recognisable images. An analogous electrochemical roadmap for attainment of broad-ranging innovation will be established in this Federation Fellowship program of research. When set in a Green Chemistry context and specifically interfaced with problems associated with nanochemistry, catalysis, materials science, biologically important reactions and chemical processes of industrial significance, the anticipated outcome is extensive access to exploitable insights of fundamental and applied importance.

Status	Finished
Effective start/end date	2/10/05 → 1/10/10

Funding

ARC - Australian Research Council: A$1,396,463.00
ARC - Australian Research Council: A$155,162.00

An integrated instrumental and theoretical approach to quantitative electrode kinetic studies based on large amplitude Fourier transformed a.c. voltammetry: a mini review
Bond, A. M., Elton, D., Guo, S., Kennedy, G., Mashkina, E., Simonov, A. & Zhang, J., 2015, In: Electrochemistry Communications. 57, p. 78-83 6 p.
Research output: Contribution to journal › Article › Research › peer-review

72 Link opens in a new tab Citations (Scopus)
Comparison of chemical interactions with Li+ and catalytic reactivity of electrochemically generated [FeICl(L)]2- and [CoI(L)]- complexes (L = salen or salophen)
Ueda, T., Inazuma, N., Komatsu, D., Yasuzawa, H., Onda, A., Guo, S. & Bond, A. M., 2013, In: Dalton Transactions. 42, 31, p. 11146 - 11154 9 p.
Research output: Contribution to journal › Article › Research › peer-review

11 Link opens in a new tab Citations (Scopus)
Visible light sensitized photocurrent generation from electrostatically assembled thin films of [Ru(bpy)(3)](2+) and the polyoxometalate gamma*-[W18O54(SO4)(2)](4-): optimizing performance in a low electrolyte medium
Walsh, J. J., Zhu, J., Bond, A. M., Forster, R. J. & Keyes, T. E., 2013, In: Journal of Electroanalytical Chemistry. 706, p. 93 - 101 9 p.
Research output: Contribution to journal › Article › Research › peer-review

21 Link opens in a new tab Citations (Scopus)

Integration of electrochemistry and Green Chemistry: A roadmap for scientific innovation

Project Details

Project Description

Funding

Research output

An integrated instrumental and theoretical approach to quantitative electrode kinetic studies based on large amplitude Fourier transformed a.c. voltammetry: a mini review

Comparison of chemical interactions with Li+ and catalytic reactivity of electrochemically generated [FeICl(L)]2- and [CoI(L)]- complexes (L = salen or salophen)

Visible light sensitized photocurrent generation from electrostatically assembled thin films of [Ru(bpy)(3)](2+) and the polyoxometalate gamma*-[W18O54(SO4)(2)](4-): optimizing performance in a low electrolyte medium