Organometallic materials for photonics. New high performance materials are required for applications in photonics, an area of increasing importance for Australia's high technology industries. This project addresses two critically important requirements in photonics: materials with enhanced nonlinear optical merit (both quadratic and cubic), needed for applications in optical communications, data storage and computer systems, and materials with significant optical limiting properties, required fo ....Organometallic materials for photonics. New high performance materials are required for applications in photonics, an area of increasing importance for Australia's high technology industries. This project addresses two critically important requirements in photonics: materials with enhanced nonlinear optical merit (both quadratic and cubic), needed for applications in optical communications, data storage and computer systems, and materials with significant optical limiting properties, required for laboratory optical device protection and military applications. Concomitant with these studies, the fundamental organometallic chemistry of alkynylmetal complexes and clusters will be developed, leading into oligomeric, dendritic and polymeric species which are of intrinsic, as well as applied, interest.Read moreRead less
Syntheses and non-linear optical properties of B- and N-cored metal alkynyl dendrimers. This project will (i) advance fundamental science, (ii) establish and consolidate links between groups in the UK and Australia with interests in electronic and optical properties of metal alkynyl compounds, (iii) improve technology transfer between the two groups by the mobility of the ARC International Fellow, and (iv) may identify new materials with sufficient non-linear optical and materials processing per ....Syntheses and non-linear optical properties of B- and N-cored metal alkynyl dendrimers. This project will (i) advance fundamental science, (ii) establish and consolidate links between groups in the UK and Australia with interests in electronic and optical properties of metal alkynyl compounds, (iii) improve technology transfer between the two groups by the mobility of the ARC International Fellow, and (iv) may identify new materials with sufficient non-linear optical and materials processing performance for commercial development.Read moreRead less
Towards Oligoclusters: Chemistry, Properties and Applications. Transition metal clusters are closed polyhedral molecules that have been studied intensively for many years, initially for intrinsic interest, and subsequently as models of / precursors for catalysts effecting industrially important chemical transformations. More recently, clusters have been identified as promising optical limiters, required for many technological applications including optical device and eye protection from high pow ....Towards Oligoclusters: Chemistry, Properties and Applications. Transition metal clusters are closed polyhedral molecules that have been studied intensively for many years, initially for intrinsic interest, and subsequently as models of / precursors for catalysts effecting industrially important chemical transformations. More recently, clusters have been identified as promising optical limiters, required for many technological applications including optical device and eye protection from high power lasers. By focussing on the syntheses, electronic and optical properties of specific monomeric, oligomeric (including macrocyclic), dendritic and polymeric cluster-containing systems, we will develop fundamental cluster chemistry, prepare processable functional polymetallic materials, and probe the possible utility of cluster-based materials as optical limiters.Read moreRead less
Organometallic Switches in Nonlinear Optics. Investment in this project (i) will support Australia's research in an international group of researchers investigating materials (particularly NLO) properties of organometallic compounds, (ii) will involve training two PhD students, who will graduate with highly developed interdisciplinary skills, and (iii) may identify new materials with sufficient performance for commercial development.
Advanced Organometallic Materials: Syntheses and Nonlinear Optical Properties. The development of materials for photonics applications has undergone extraordinary growth in the past few years, driven in part by potential commercial applications. Investment in this project (i) will gain Australia entry into an international network of researchers investigating materials (particularly nonlinear optical) properties of organometallic and other compounds necessary for such applications, (ii) will inv ....Advanced Organometallic Materials: Syntheses and Nonlinear Optical Properties. The development of materials for photonics applications has undergone extraordinary growth in the past few years, driven in part by potential commercial applications. Investment in this project (i) will gain Australia entry into an international network of researchers investigating materials (particularly nonlinear optical) properties of organometallic and other compounds necessary for such applications, (ii) will involve training two PhD students, who will graduate with highly developed interdisciplinary skills, and (iii) may identify new materials with sufficient performance for commercial development.Read moreRead less
Metal Alkynyl Materials for Photonics. Investment in this project (i) will gain Australia entry into an international network of researchers investigating materials (particularly NLO) properties of organometallic and other compounds, (ii) will involve training four PhD students, who will graduate with highly developed interdisciplinary skills, (iii) may identify new materials with sufficient performance for commercial development, and (iv) will build bridges between traditional research in organ ....Metal Alkynyl Materials for Photonics. Investment in this project (i) will gain Australia entry into an international network of researchers investigating materials (particularly NLO) properties of organometallic and other compounds, (ii) will involve training four PhD students, who will graduate with highly developed interdisciplinary skills, (iii) may identify new materials with sufficient performance for commercial development, and (iv) will build bridges between traditional research in organometallic chemistry and that in nanophotonics and biophotonics, and position Australia as a major player in these nascent fields.Read moreRead less
Advanced cluster materials for optical limiting applications. Materials with significant optical limiting properties are needed for optical device and personnel protection against accidental exposure and hostile threat from high-power lasers. Metal clusters (molecules with several metal atoms) are one of the most promising optical limiting materials known, but while their potential has been highlighted, the systematic studies needed to optimise their performance are lacking. This project will as ....Advanced cluster materials for optical limiting applications. Materials with significant optical limiting properties are needed for optical device and personnel protection against accidental exposure and hostile threat from high-power lasers. Metal clusters (molecules with several metal atoms) are one of the most promising optical limiting materials known, but while their potential has been highlighted, the systematic studies needed to optimise their performance are lacking. This project will assess the optical limiting merit of carefully targeted cluster complexes, and afford structure/property relationships to guide materials development. Read moreRead less
Multifunctional metal alkynyls for nonlinear optics. Developments in photonics necessitate materials with enhanced, tunable, and/or reversibly switchable nonlinear optical properties that can be used to control or process incident light beams. This project will explore new possibilities: to maximise molecular NLO properties while enhancing modulation and switching; multipolar metal alkynyl complexes will be targeted, building systematically on our preliminary results; organometallic alkynyl unit ....Multifunctional metal alkynyls for nonlinear optics. Developments in photonics necessitate materials with enhanced, tunable, and/or reversibly switchable nonlinear optical properties that can be used to control or process incident light beams. This project will explore new possibilities: to maximise molecular NLO properties while enhancing modulation and switching; multipolar metal alkynyl complexes will be targeted, building systematically on our preliminary results; organometallic alkynyl units will be hybridised with functional organic and coordination complex modules to develop novel multifunctional systems; and, supported nanoarchitectures will be constructed to demonstrate practical NLO switching, with potential applications in photonics technologies.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE150100127
Funder
Australian Research Council
Funding Amount
$360,000.00
Summary
Flow Reactor Chemical Synthesis Facility. Flow reactor chemical synthesis facility: This flow chemistry facility aims to greatly expand upon the traditional scale batch synthesis operations that are currently in use by organic, organometallic, biological and materials chemistry researchers while minimising environmental impact. The anticipated advantages of this facility are manifold and include both significantly enhanced capabilities (broader experimental/chemical space) and considerably impro ....Flow Reactor Chemical Synthesis Facility. Flow reactor chemical synthesis facility: This flow chemistry facility aims to greatly expand upon the traditional scale batch synthesis operations that are currently in use by organic, organometallic, biological and materials chemistry researchers while minimising environmental impact. The anticipated advantages of this facility are manifold and include both significantly enhanced capabilities (broader experimental/chemical space) and considerably improved safety and efficiency (no unstable intermediate accumulation, greater selectivity, cleaner products, reduced solvent requirements).Read moreRead less
Utilising nature's complexity - understanding fundamental organometallic binding modes of furans and coordination of bioderived furans. The earth's decreasing reserves of fossil fuels has prompted an intense push to utilise the renewable bioresources to replace the many products and fuels derived from petroleum. One of the promising developments is the production of so-called Furanics, useful molecules produced easily from carbohydrates found in waste materials from the sugar, corn and forestry ....Utilising nature's complexity - understanding fundamental organometallic binding modes of furans and coordination of bioderived furans. The earth's decreasing reserves of fossil fuels has prompted an intense push to utilise the renewable bioresources to replace the many products and fuels derived from petroleum. One of the promising developments is the production of so-called Furanics, useful molecules produced easily from carbohydrates found in waste materials from the sugar, corn and forestry industries. Given Australia's wealth of agricultural resources, discovering the full power of these potentially useful furanic compounds should be a major priority. This research aims to link Australia's biomass potential with the plastics, pharmaceutical, fine and agrichemical industries.Read moreRead less