Professor Xiaodong Cao's Academic Profile at South China University of Technology

Overview

Professor Xiaodong Cao is a distinguished researcher and educator specializing in polymer nanocomposites, biomedical materials, and 3D bioprinting. His work focuses on hierarchical biomimetic constructs for bone, cartilage, and intervertebral disc repair. With over 110 SCI publications and 30 Chinese patents, his contributions have significantly advanced tissue engineering.

Key Information

• Name: Xiaodong Cao
• Gender: Male
• Birth: December 1977 (Zhejiang, China)
• Education: Ph.D. in Polymer Chemistry & Physics (Wuhan University)
• Current Role: Professor & Doctoral Advisor, School of Materials Science and Engineering

• Research Interests:

  • Biomedical polymer materials
  • Bioactive hydrogels
  • 3D bioprinting for clinical applications

Academic Achievements

Publications & Citations

• 110+ SCI papers in journals like Angewandte Chemie, Advanced Functional Materials, and Biomacromolecules.
• 5,000+ citations with an H-index of 36.
• 30 patents (18 granted).

Key Projects

1. National Natural Science Foundation Grants: Focused on hydrogel-based cartilage regeneration (2016–2024).
2. Guangdong R&D Initiative: Bioactive bone repair materials via 3D printing (2019–2022).

Research Focus

Core Areas

1. Multifunctional Hydrogels: Design for mechanical adaptability and cell compatibility.
2. Biomimetic Scaffolds: Hierarchical structures mimicking natural tissue.
3. 3D Bioprinting: Clinical applications in osteochondral repair.

Innovations

• Developed Pickering emulsion-stabilized macroporous hydrogels for enhanced bone regeneration.
• Pioneered dual-crosslinked adhesive hydrogels for injectable cartilage repair.

Teaching & Mentorship

• Courses Taught:

  • Tissue Engineering (Graduate level)
  • Introduction to Tissue Engineering (Undergraduate)

• Students Supervised:

  • 4 Ph.D. and 13 M.S. graduates.
  • 15 current graduate students and 5 postdocs.

FAQs

1. What are Professor Cao’s most cited works?

His studies on hyaluronic acid hydrogels and 3D-printed silk-gelatin scaffolds are widely referenced for cartilage regeneration.

2. How does his team approach biomaterial design?

By integrating microfluidic technology and dynamic cross-linking to create spatially structured materials.

3. What industries benefit from his research?

Medical device companies and regenerative medicine sectors leverage his scaffolds for customizable tissue repair solutions.

👉 Explore cutting-edge biomedical applications

Conclusion

Professor Cao’s interdisciplinary work bridges material science and clinical needs, positioning SCUT as a leader in biomedical innovation. His focus on translational research ensures practical impacts in regenerative therapies.

👉 Learn more about advanced tissue engineering

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