Research & Projects

Welcome to my research and projects portfolio. Here you’ll find detailed information about my work in medical technology, tissue engineering, and electrical engineering.

Featured Projects

🧬 Tissue Engineering Research

Biocompatible, Biodegradable, and Electroactive Polyurethane-Urea Elastomers with Tunable Hydrophilicity for Skeletal Muscle Tissue Engineering

My primary research focus involves developing novel biomaterials for tissue engineering applications. This project explores the creation of electroactive polymers that can promote muscle tissue regeneration while maintaining biocompatibility and controlled degradation properties.

Biocompatible, Biodegradable, and Electroactive Polyurethane-Urea Elastomers with Tunable Hydrophilicity for Skeletal Muscle Tissue Engineering

⚡ Medical Device Development

Wearable Sensing Device

Development of innovative wearable technology for medical monitoring and diagnostic purposes. This project focuses on creating accessible diagnostic platforms for sports medicine applications.

Wearable Sensing Device

🔬 Infrared Sensor Controller

Infrared Sensor Proportional-Derivative Controller

Advanced control systems for infrared sensors, demonstrating practical applications of electrical engineering principles in sensor technology.

Infrared Sensor Proportional-Derivative Controller

Research Areas

• Biomaterials & Tissue Engineering: Development of biocompatible materials for medical applications
• Medical Device Technology: Creating accessible diagnostic and therapeutic solutions
• Sports Medicine: Applications of engineering principles in athletic performance and injury prevention
• Bioelectronics: Integration of electronic systems with biological systems

Publications & References

• Tissue Engineering Summary
• Zone Training for Endurance Athletes
• Crusade Article 1

Project Highlights

Medical Technology Innovation

My projects focus on bridging the gap between engineering and medicine, creating solutions that are:

• Accessible: Affordable and easy to use
• Effective: Based on sound scientific principles
• Scalable: Can be implemented in various settings
• Patient-Centered: Designed with user needs in mind

Research Methodology

Each project follows a systematic approach:

1. Problem Identification: Understanding real-world medical challenges
2. Literature Review: Comprehensive analysis of existing solutions
3. Design & Development: Creating innovative solutions
4. Testing & Validation: Ensuring safety and effectiveness
5. Implementation: Bringing solutions to practical use

Future Research Directions

I plan to expand my research in:

• Advanced Biomaterials: Next-generation tissue engineering materials
• Smart Medical Devices: Intelligent diagnostic and therapeutic systems
• Sports Medicine Technology: Performance optimization and injury prevention tools
• Bioelectronic Interfaces: Seamless integration of electronics with biological systems

Related Pages:

• Medical Research - My medical research work
• I2BL - My research lab at UCLA
• Crusade Sports Medicine - Sports medicine applications
• Resume - My professional background and experience

Interested in collaborating on any of these projects? Get in touch to discuss opportunities.