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His research is focused on developing solutions in the clean energy and future fuels sector, including developing novel separation processes involving membranes and assisting industry's undertake carbon emission abatement. This research is primarily achieved by working with industry partners on technology development. Assoc. Prof. Scholes’s goal is to implement technology solutions in Australia and international industry that will facilitate the transition to a clean energy future, reduce CO2 emissions and decrease the energy intensity of industry. His research has a strong focus on developing novel polymer materials; as membranes and barriers to control the mobility of gases and vapours, fabrication of innovative membrane designs for various separation applications, as well as developing new chemical separation mechanisms that operate on the molecular level. His research has made significant contributions to the clean energy sector, natural gas industry, as well as achieved carbon emission reductions in several industries. Examples of his research include the development of low energy membrane gas-solvent contactor technology that can efficiently capture carbon dioxide from a range of industrial sources. This technology is a disruptive approach that will impact the future of many carbon intensive industries that do not have a green alternative, as the contactor technology can reduce both the capital and operating costs compared to traditional separation technology. Another example is in polymeric systems for gas separation, including synthesis of thermal rearrangement polymers, particularly copolymers and blends, as well as polymers of intrinsic microporosity to develop high-performance barrier and membranes for various applications. This research has been extended into flammable/toxic gas separation applications, such as CO processing. His research into helium separation has explored a previously neglected area in natural gas processing, which has opened a niche field for polymeric membrane technologies, which are now being trialed to address the global shortage in helium. Similarly, his research into water vapour permeation through polymeric materials has developed technology to addressed key corrosion challenges facing industrial flue gas processing, including developed the world’s first water vapour resistant polymeric membrane that displayed selectivity for other gases and vapours. This discovery demonstrates his research expertise in technology development and focus on commercialization.
Assoc. Prof. Scholes research also has a strong materials engineering component, focused on working with Indigenous communities on engineering-based programs that reestablished lost knowledge and practices.
Assoc. Prof. Scholes research also has a strong materials engineering component, focused on working with Indigenous communities on engineering-based programs that reestablished lost knowledge and practices.
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Chemical Engineering Journalpp.151442, (2024)
Chemical Engineering Journal (2024)
Journal of Membrane Science (2024): 122923
CHEMELECTROCHEMno. 9 (2024): n/a-n/a
ChemElectroChem (2024)
JOURNAL OF MEMBRANE SCIENCE (2023): 121990-121990
Chemical Engineering Science (2023): 118915-118915
JOURNAL OF MEMBRANE SCIENCE (2023): 121697-121697
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