The Fabrication of Hybrid Catalytic Systems Using Additive Manufacturing Technologies Scholarship 2026 is a fully funded PhD scholarship offered by UNSW Sydney. Hosted by the Graduate School of Biomedical Engineering, the project focuses on developing hybrid two-dimensional catalytic systems using advanced additive manufacturing technologies for environmental applications. By integrating additive manufacturing, nanotechnology, catalysis, materials science, and environmental engineering, the research aims to create next-generation catalytic materials for sustainable environmental solutions. Successful applicants receive a living stipend of AUD 37,684 per annum (2024 rate, indexed annually) together with a Tuition Fee Scholarship for eligible international students.

About the Fabrication of Hybrid Catalytic Systems Using Additive Manufacturing Technologies Scholarship

UNSW Sydney offers this scholarship to support doctoral research into the fabrication of hybrid catalytic systems using innovative additive manufacturing techniques.

Researchers investigate how advanced fabrication methods influence the performance of hybrid two-dimensional catalytic structures designed for environmental applications. By combining three-dimensional printing technologies, advanced functional materials, and catalytic engineering, the project seeks to produce highly efficient catalytic systems for pollution control, environmental remediation, and sustainable chemical processes. Students explore how additive manufacturing techniques can improve catalyst efficiency, durability, scalability, and performance while reducing material waste and manufacturing costs.

Successful PhD candidates conduct interdisciplinary research under the supervision of Scientia Senior Lecturer Dr. Dorna Esrafilzadeh, whose expertise includes advanced functional materials, nanotechnology, additive manufacturing, and environmental technologies.

Why Choose The Fabrication of Hybrid Catalytic Systems Using Additive Manufacturing Technologies Scholarship?

This scholarship allows you to conduct cutting-edge research at one of Australia’s leading research universities while contributing to sustainable environmental technologies.

You benefit from:

  • Fully funded doctoral research
  • Annual living stipend
  • Tuition fee scholarship for eligible international students
  • Supervision by internationally recognised researchers
  • Access to advanced additive manufacturing facilities
  • Research training in nanotechnology and catalytic materials
  • Opportunities to publish in leading scientific journals
  • Collaboration with interdisciplinary research teams

Graduates can pursue careers in:

  • Materials Engineering
  • Biomedical Engineering
  • Chemical Engineering
  • Nanotechnology
  • Additive Manufacturing
  • Environmental Engineering
  • Catalysis Research
  • Academic and Industrial Research

Fabrication of Hybrid Catalytic Systems Using Additive Manufacturing Technologies Scholarship Summary

  • Host Country: Australia
  • Host University: UNSW Sydney
  • School: Graduate School of Biomedical Engineering
  • Scholarship Name: Fabrication of Hybrid Catalytic Systems Using Additive Manufacturing Technologies Scholarship
  • Study Level: PhD
  • Scholarship Type: Fully Funded PhD Scholarship
  • Research Area: Additive Manufacturing, Catalysis, Nanotechnology, Materials Engineering, Environmental Engineering
  • Study Mode: Full-Time
  • Scholarship Duration: Up to 3.5 years
  • Annual Living Stipend: AUD 37,684 per annum (2024 rate, indexed annually)
  • International Tuition Support: Tuition Fee Scholarship available
  • Eligible Applicants: Domestic and International Students
  • Supervisor: Dr. Dorna Esrafilzadeh
  • Application Mode: Expression of Interest by email
  • Selection Basis: Academic excellence, research potential, and suitability for the project

Scholarship Benefits

The scholarship provides:

  • AUD 37,684 annual living stipend (2024 rate, indexed annually)
  • Tuition Fee Scholarship for eligible international students
  • Access to advanced additive manufacturing laboratories
  • Supervision by leading researchers in biomedical engineering and nanotechnology
  • Professional research training
  • Opportunities to publish research findings
  • Participation in interdisciplinary research projects
  • Access to world-class research facilities at UNSW Sydney

Recipients gain valuable experience with advanced manufacturing technologies while building expertise in catalytic materials and interdisciplinary engineering research.

Eligibility Criteria

Applicants must:

  • Meet the admission requirements for a PhD at UNSW Sydney
  • Hold an honours degree or an equivalent master’s qualification in a relevant discipline
  • Demonstrate excellent academic achievement and research potential
  • Meet UNSW English language requirements where applicable

The scholarship welcomes applicants from the following disciplines:

  • Biomedical Engineering
  • Chemical Engineering
  • Materials Engineering
  • Nanotechnology
  • Chemistry
  • Materials Science
  • Environmental Engineering
  • Mechanical Engineering
  • Related engineering or science disciplines

Relevant experience in nanomaterials, additive manufacturing, catalysis, functional materials, or advanced manufacturing techniques will strengthen an application.

Required Documents

Applicants should prepare:

  • Curriculum Vitae (CV)
  • Academic transcripts
  • Degree certificates
  • Proof of English language proficiency (if required)
  • Additional supporting documents requested during the UNSW Higher Degree Research admission process

Depending on the selection process, the supervising academic may request additional supporting documents.

Application Process & Timeline

Follow these steps:

  1. Review the research project description.
  2. Prepare your CV and academic transcripts.
  3. Email your application documents directly to Dr. Dorna Esrafilzadeh at [email protected].
  4. Discuss your research interests with the project supervisor if requested.
  5. If shortlisted, complete the formal UNSW Higher Degree Research admission application.
  6. Submit all required admission documents.
  7. Accept the scholarship offer and commence your PhD research.