Sustainablue Green Architecture

This division focuses on the design and construction of environmentally responsible and energy-efficient buildings, utilizing advanced materials and construction techniques. Our objective is to create net-zero energy structures that minimize waste and promote wellness, while seamlessly integrating with their natural surroundings. We collaborate with industry leaders to establish standards and guidelines for sustainable architecture, and educate others about the importance of green building practices. Our research encompasses life cycle assessment, passive solar design, biophilic design, and the use of renewable materials. We aim to create a built environment that is not only aesthetically pleasing but also promotes human health and well-being, while reducing its impact on the planet.

Sustainable Ecomechatronics

Our research in this division centers on the development of ecologically sustainable mechatronic systems and robotics. We aim to create intelligent systems that operate in harmony with the environment by utilizing renewable energy sources, minimizing energy consumption, and reducing waste. We explore the use of biodegradable and recycled materials in mechatronic systems and strive to develop new methods for recycling and repurposing electronic waste. Our goal is to establish a circular economy for mechatronic systems, where resources are used efficiently, and waste is minimized or eliminated. Our research interests include green robotics, eco-friendly materials, renewable energy systems, and life cycle analysis of mechatronic systems.

Personalized nuetrogenomics

This division focuses on advancing the understanding of supramolecular chemistry and its applications in personalized medicine and

neutrogenomics. Our objective is to develop targeted therapies and diagnostic tools based on supramolecular interactions to improve treatment outcomes and provide personalized care.

We explore the use of supramolecular systems for drug delivery, gene therapy, and diagnostic imaging. Our research interests encompass the design and synthesis of supramolecular assemblies, the study of supramolecular interactions in biological systems, and the

development of personalized therapies based on neutrogenomic insights. We collaborate with researchers and clinicians to translate basic research into clinical applications and educate others about the potential of supramolecular chemistry in personalized medicine.