The Fabrication of Hybrid Catalytic Systems Using Additive Manufacturing Technologies PhD Scholarship is a fully funded Higher Degree Research (HDR) PhD scholarship offered by the University of New South Wales (UNSW Sydney), Australia. The project is hosted by the Graduate School of Biomedical Engineering and focuses on developing advanced hybrid catalytic systems through additive manufacturing technologies for environmental applications. Moreover, the scholarship supports innovative research that combines advanced manufacturing with functional materials to address critical environmental challenges. Through this project, doctoral researchers contribute to the development of sustainable technologies with significant industrial and environmental impact.

Background and Purpose

The research examines how additive manufacturing techniques affect the performance of hybrid two-dimensional catalytic structures. Researchers combine advanced manufacturing methods with innovative functional materials to create highly efficient catalytic systems. These systems target applications such as pollution control, water treatment, and sustainable chemical processes. The project integrates three-dimensional printing technologies with nanomaterials and catalytic engineering. This approach improves catalyst efficiency, durability, and scalability. The research also brings together expertise from biomedical engineering, materials science, nanotechnology, additive manufacturing, catalysis, and environmental engineering. Through this interdisciplinary approach, researchers develop next-generation catalytic technologies that support cleaner industrial processes and better environmental sustainability.

Fabrication of Hybrid Catalytic Systems Using Additive Manufacturing Technologies Scholarship Benefits

The scholarship provides a living stipend of AUD 37,684 per annum for the standard duration of a PhD program. Eligible international applicants also receive a Tuition Fee Scholarship. Scholars work under the supervision of Scientia Senior Lecturer Dr. Dorna Esrafilzadeh. They gain access to advanced research facilities and multidisciplinary expertise throughout their studies. These opportunities help students build strong research, technical, and professional skills. They also prepare scholars to develop innovative engineering solutions with practical applications.

Eligibility Criteria

Applicants must meet the admission requirements for a PhD at UNSW. They must also demonstrate strong academic achievement and research potential. Both domestic and international applicants are eligible to apply. Applicants should have an academic background in biomedical engineering, materials science, nanotechnology, chemical engineering, environmental engineering, mechanical engineering, or a related discipline. A strong interest in additive manufacturing, advanced materials, and catalytic technologies will strengthen an application.

Fabrication of Hybrid Catalytic Systems Using Additive Manufacturing Technologies Scholarship Application Process

Applicants should first email their curriculum vitae and academic transcripts directly to the project supervisor. After receiving a positive response, they should submit a formal application for the UNSW Higher Degree Research program. Applicants should clearly explain how their academic qualifications and research interests match the project’s objectives. A well-prepared application that demonstrates relevant research experience will strengthen their chances of selection.

Opportunities for Scholars

The scholarship gives students an excellent opportunity to conduct interdisciplinary research in advanced manufacturing, nanotechnology, and environmental engineering. Scholars gain expertise in designing and fabricating hybrid catalytic materials. They also contribute to the development of sustainable environmental technologies with practical applications. The project helps students develop advanced skills in functional materials, additive manufacturing, and catalytic engineering. These skills prepare graduates for careers in academia, advanced manufacturing, nanotechnology, catalysis, environmental engineering, research organizations, and high-technology industries.