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Patent

xb paper1

Since 2024

Design, Fabrication, and Evaluation of a 3D-Printed Transdermal Patch

This innovative research explores the development of a 3D printed transdermal patch that incorporates keratin and pectin within a supramolecular structured, zero-oxidation state selenium nanogel. Designed to enhance therapeutic delivery, the patch combines advanced biocompatible materials with state-of-the-art 3D printing technology to offer an effective and sustainable solution for biomedical applications.

Conducted by T.S. Manikandamaharaj and M. Prabhu Deva, this study is a collaboration among the Department of Biotechnology and Green Energy Technology at Pondicherry University and Xenobiomic Research and Technological Development Pvt. Ltd. This pioneering work highlights the potential of nanotechnology and 3D printing in advancing drug delivery systems.

xb paper3

Since 2023

3D-Printed honeycomb matrix as photocatalyst substrate

Our team of dedicated researchers and technologists harnesses the power of additive manufacturing to push the boundaries of innovation. Our recent achievement in fabricating a 3D-printed honeycomb matrix as a photocatalyst substrate for water remediation applications underscores our commitment to sustainable and impactful solutions. By leveraging PLA-based substrates in a precisely engineered honeycomb structure, we enable efficient degradation of organic pollutants, thereby contributing to cleaner and healthier ecosystems.

We are proud to have contributed to the development of the 3D printed honeycomb matrix as a photocatalyst substrate for water remediation applications, a testament to our dedication to sustainable innovation.

Let’s build a future where technology and sustainability go hand in hand. Explore the possibilities with Xenobiomic Research and Technological Development Pvt. Ltd.

xb paper2

Since 2023

Design optimization of                   3D-Printed flow path plates

This innovative research explores the development of 3D-printed flow path plates in high-performance bioethanol fuel cells. Designed to enhance the optimization of sustainable materials with state-of-the-art 3D printing technology to offer an effective and sustainable solution for energy conversion applications.

Conducted by T.S. Manikandamaharaj and M. Prabhu Deva, this study is a collaboration among the Department of Green Energy Technology at Pondicherry University and Xenobiomic Research and Technological Development Pvt. Ltd. This pioneering work highlights the potential of green energy technology and 3D printing in advancing green energy applications.