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Outputs (31)

Maximising E-waste leachate adsorption: multi-component isotherm models and mechanisms with scalable mesoporous sugarcane bagasse-derived biochar (2025)
Journal Article
Al-Gailani, A., Bongosia, J. G., Hornsby, K., & Taylor, M. J. (2025). Maximising E-waste leachate adsorption: multi-component isotherm models and mechanisms with scalable mesoporous sugarcane bagasse-derived biochar. Journal of Water Process Engineering, 75, Article 107979. https://doi.org/10.1016/j.jwpe.2025.107979

Heavy metal contamination is a primary environmental and health concern contributing to organ damage, neurological disorders and developmental issues. Adsorption is an efficient, cost-effective method for removing heavy metals from contaminated water... Read More about Maximising E-waste leachate adsorption: multi-component isotherm models and mechanisms with scalable mesoporous sugarcane bagasse-derived biochar.

Evaluation of Natural Organic Additives as Eco-friendly Inhibitors for Calcium and Magnesium Scale Formation in Water Systems (2024)
Journal Article
Al-Gailani, A., Taylor, M. J., Zaheer, M. H., & Barker, R. (online). Evaluation of Natural Organic Additives as Eco-friendly Inhibitors for Calcium and Magnesium Scale Formation in Water Systems. ACS Environmental Au, https://doi.org/10.1021/acsenvironau.4c00076

Mineral scale formation reduces the heat transfer efficiency and clogs pipes and valves, increasing power consumption. To address the environmental concerns of conventional scale inhibitors, this paper explores biodegradable and eco-friendly alternat... Read More about Evaluation of Natural Organic Additives as Eco-friendly Inhibitors for Calcium and Magnesium Scale Formation in Water Systems.

Cleaning up metal contamination after decades of energy production and manufacturing: reviewing the value in use of biochars for a sustainable future (2024)
Journal Article
Priyanka, Wood, I., Al-Gailani, A., Kolosz, B. W., Cheah, K. W., Vashisht, D., Mehta, S., & Taylor, M. J. (2024). Cleaning up metal contamination after decades of energy production and manufacturing: reviewing the value in use of biochars for a sustainable future. Sustainability, 16(20), Article 8838. https://doi.org/10.3390/su16208838

The lasting impact of ancestral energy production operations and global manufacturing has not only generated substantial CO2 emissions, but it has also led to the release of metal-based pollutants into Earth’s water bodies. As we continue to engineer... Read More about Cleaning up metal contamination after decades of energy production and manufacturing: reviewing the value in use of biochars for a sustainable future.

Scalable mesoporous biochars from bagasse waste for Cu (II) removal: Process optimisation, kinetics and techno-economic analysis (2024)
Journal Article
Bongosia, J., Al-Gailani, A., Kolosz, B. W., Loy Chun Minh, A., Sow Mun Lock, S., Cheah, K. W., & Taylor, M. J. (2024). Scalable mesoporous biochars from bagasse waste for Cu (II) removal: Process optimisation, kinetics and techno-economic analysis. Journal of environmental management, 370, Article 122558. https://doi.org/10.1016/j.jenvman.2024.122558

As the world faces the brink of climatological disaster, it is crucial to utilize all available resources to facilitate environmental remediation, especially by accommodating waste streams. Lignocellulosic waste residues can be transformed into mesop... Read More about Scalable mesoporous biochars from bagasse waste for Cu (II) removal: Process optimisation, kinetics and techno-economic analysis.

Green pathways for biomass transformation: A holistic evaluation of deep eutectic solvents (DESs) through life cycle and techno-economic assessment (2024)
Journal Article
Yiin, C. L., Lai, Z. Y., Chin, B. L. F., Lock, S. S. M., Cheah, K. W., Taylor, M. J., Al-Gailani, A., Kolosz, B. W., & Chan, Y. H. (2024). Green pathways for biomass transformation: A holistic evaluation of deep eutectic solvents (DESs) through life cycle and techno-economic assessment. Journal of cleaner production, 470, Article 143248. https://doi.org/10.1016/j.jclepro.2024.143248

The utilization of renewable biomass resources to manufacture biofuels, chemicals, and materials has garnered considerable attention. Deep eutectic solvents (DESs) have surfaced as a promising instrument within the realm of biomass conversion, owing... Read More about Green pathways for biomass transformation: A holistic evaluation of deep eutectic solvents (DESs) through life cycle and techno-economic assessment.

Repurposing lignin rich biorefinery waste streams into the next generation of sustainable solid fuels (2024)
Journal Article
Taylor, M. J., Hornsby, K., Cheah, K. W., Hurst, P., Walker, S., & Skoulou, V. (2024). Repurposing lignin rich biorefinery waste streams into the next generation of sustainable solid fuels. Sustainable Chemistry for the Environment, 7, Article 100123. https://doi.org/10.1016/j.scenv.2024.100123

Value added lignin rich waste sludges from biorefinery processes are, as yet untapped valuable feedstocks that can be reformed into clean, high quality solid fuels. By water washing sludges produced from base hydrolyzed waste, a material stripped of... Read More about Repurposing lignin rich biorefinery waste streams into the next generation of sustainable solid fuels.

Investigation of Monovalent Li and Divalent Ni Doping in Co3O4 for Enhanced Hydroelectric Cell Performance (2024)
Journal Article
Kashyap, R., Chauhan, A., Kaur, G., Chaudhary, G. R., Taylor, M. J., & Sharma, R. K. (2024). Investigation of Monovalent Li and Divalent Ni Doping in Co3O4 for Enhanced Hydroelectric Cell Performance. Physica B: Condensed Matter, 688, Article 416150. https://doi.org/10.1016/j.physb.2024.416150

The hydroelectric cell (HEC) produces green power at room temperature using non-photocatalytic water splitting. To achieve this goal, pure Ni (Nickel) and lithium (Li) substituted in cobalt oxide (Co3O4), a mesoporous oxygen-deficient material, is in... Read More about Investigation of Monovalent Li and Divalent Ni Doping in Co3O4 for Enhanced Hydroelectric Cell Performance.

Photocatalytic Hydrolysis─A Sustainable Option for the Chemical Upcycling of Polylactic Acid (2023)
Journal Article
Garratt, A., Nguyen, K., Brooke, A., Taylor, M. J., & Francesconi, M. G. (2023). Photocatalytic Hydrolysis─A Sustainable Option for the Chemical Upcycling of Polylactic Acid. ACS Environmental Au, 3(6), 342–347. https://doi.org/10.1021/acsenvironau.3c00040

Plastic waste is a critical global issue, yet current strategies to avoid committing plastic waste to landfills include incineration, gasification, or pyrolysis high carbon emitting and energy consuming approaches. However, plastic waste can become a... Read More about Photocatalytic Hydrolysis─A Sustainable Option for the Chemical Upcycling of Polylactic Acid.

Elucidation of single atom catalysts for energy and sustainable chemical production: Synthesis, characterization and frontier science (2023)
Journal Article
Loy, A. C. M., Teng, S. Y., How, B. S., Zhang, X., Cheah, K. W., Butera, V., Leong, W. D., Chin, B. L. F., Yiin, C. L., Taylor, M. J., & Kyriakou, G. (2023). Elucidation of single atom catalysts for energy and sustainable chemical production: Synthesis, characterization and frontier science. Progress in Energy and Combustion Science, 96, Article 101074. https://doi.org/10.1016/j.pecs.2023.101074

The emergence of single atom sites as a frontier research area in catalysis has sparked extensive academic and industrial interest, especially for energy, environmental and chemicals production processes. Single atom catalysts (SACs) have shown remar... Read More about Elucidation of single atom catalysts for energy and sustainable chemical production: Synthesis, characterization and frontier science.

Evaluating the pre-treatment protocol required to produce an effective carbonized waste adsorbent for organic pollution control (2023)
Journal Article
Priyanka, Vashisht, D., Taylor, M. J., & Mehta, S. K. (2023). Evaluating the pre-treatment protocol required to produce an effective carbonized waste adsorbent for organic pollution control. Frontiers in Environmental Science, 11, Article 1224388. https://doi.org/10.3389/fenvs.2023.1224388

With the goal of fostering the circular economy, the present work was devised to minimize and manage agricultural waste by transforming it into biochar; a versatile dye removal adsorbent. Waterways across the globe are frequently fouled and contamina... Read More about Evaluating the pre-treatment protocol required to produce an effective carbonized waste adsorbent for organic pollution control.