Australian Institute for Bioengineering and Nanotechnology
Availability:
Available for supervision
Media expert
I am the Group Leader of Bio-inspired Materials Research at the Australian Institute for Bioengineering and Nanotechnology, The University of Queensland. Our research focuses on transforming agricultural waste into innovative solutions for tackling plastic and food waste issues. Our mission extends beyond research and into commercialisation. We are dedicated to fostering partnerships across industry, academia, community and government, utilising waste as a valuable resource for advancements in the environment, food and health sectors. Our approach is clear: turning challenges into opportunities for a sustainable future.
I am a strong advocate for cultural diversity and equity, and support staff and students to grow as more effective leaders and create social good.
In recognition of my contribution to the field of nanomaterials engineering and research excellence, I have received several awards including; one of the winners of AgriFutures Australia and growAG.Catalyst Program(2024), one of the Queelsnand Tall Poppy Award winners(2024), The Eight Australian Women Who Are Shaking up the World Of Science (Marie Claire, 2020), one of Australia’s Top 5 Scientists (ABC/UNSW, 2018), Queensland Women in STEM Prize- judges choice award (2017), Women in Technology Life Sciences and/or Infotech Rising Star Award (2016), AIBN Research Excellence Award (2016), a Class of 2014 Future Leader award and Best poster prize at the Australian Nanotechnology Network ECR Entrepreneurship workshop(2015).
Faculty of Engineering, Architecture and Information Technology
Availability:
Available for supervision
Experienced materials engineering researcher with proven experience in developing chemically tuned structures for commercial opportunities. My unique skill set spans interfacing technical analysis (morphology, composition, performance, and durability) of sustainable composite materials with economic feasibility and quality system requirements from research and industry associates. I am a team player, and the guiding principles by which I function in all facets of my life include ‘shared values’, ‘shared vision’, ‘complementary expertise’ and ‘diligence’.
Faculty of Engineering, Architecture and Information Technology
Affiliate of Dow Centre for Sustainable Engineering Innovation
Dow Centre for Sustainable Engineering Innovation
Faculty of Engineering, Architecture and Information Technology
Availability:
Not available for supervision
Dr Tebyetekerwa is an ARC DECRA Fellow and Sub-Group Leader at UQ Dow Centre for Sustainable Engineering Innovation and ARC Centre of Excellence for Green Electrochemical Transformation of Carbon Dioxide(GETCO2), working with Professor Xiwang Zhang. His current main research interests at UQ School of Chemical Engineering rotate around water and electrochemical systems such as electrochemical CO2 capture and conversion to valuable chemicals and electrochemical production of hydrogen peroxide and/or hydrogen. He is deeply interested in designing scalable and industry-relevant chemical cells and generators. He completed his PhD from The Australian National University (ANU), where his research focused on optical spectroscopy and advanced characterization of semiconducting materials and their devices (Supervised by Prof Dan Macdonald, A/Prof. Dr. Hieu T. Nguyen and Prof. Yuerui (Larry) Lu). Dr Tebyetekerwa also holds a Master's in Materials Processing Engineering from Donghua University, Shanghai, where his research focused on fibrous materials for flexible energy storage (Supervised by Academician Meifang Zhu and A/Prof Shengyuan Yang). Mike supervises projects for undergraduate, master's, and PhD students on topics related to the following research interests;
Scalable electrochemical production of hydrogen peroxide and/or hydrogen from water*
Scalable electrochemical CO2 capture and reduction to valuable chemicals*
Reconstructed graphite for sodium-ion batteries
High surface area electrospun fibre materials for various applications
Aggregation-induced emission (AIE) molecules and their engineered applications
Light-matter understanding of 2D materials and other semiconductor materials for optoelectronics*
*Currently funded and active ongoing projects
Featured works
2022: His work on 2D materials (https://www.cell.com/cell-reports-physical-science/fulltext/S2666-3864(21)00213-7) was selected in the Cell Reports Physical Science “Influential papers-2021” and "Editor's Choice-2021" collection.
2021: His works (https://pubs.rsc.org/en/content/articlehtml/2017/sc/c8ee02607f) and other co-authored works (https://www.science.org/doi/full/10.1126/science.abb8687), ( https://doi.org/10.1016/j.carbon.2017.11.012 ) are listed as "Highly Cited Papers" and "Hot Papers" in Web of Science.
2020:His work on nanofibers has continuously been listed as one of the highly cited articles for Advanced Fiber Materials (https://doi.org/10.1007/s42765-020-00049-5), since it was published to date.
2019:His work on nanofibers ( https://doi.org/10.1021/acsaem.7b00057 ) was listed as the most-read article for ACS Applied Energy Materials in 2018.
In addition to his research, Mike lectures Sustainable Energy Technologies and Supply Systems (ENGY7000) course as part of the Master of Sustainable Energy (MSE) program.
