Research & Development
Pioneering advanced bio-microneedle technology
through continuous innovation and scientific excellence
Research Focus Areas
Advancing spicule technology through targeted research
Bio-Microneedle Technology
Developing next-generation bio-microneedles with enhanced penetration capabilities and improved biocompatibility for cosmetic applications.
- • Enhanced penetration mechanisms
- • Biocompatibility optimization
- • Size uniformity control
Purification Methods
Advanced purification techniques to achieve higher purity levels while maintaining spicule integrity and effectiveness.
- • Novel separation techniques
- • Purity level optimization
- • Quality preservation methods
Formulation Science
Research into optimal formulation methods for incorporating spicules into various cosmetic products and delivery systems.
- • Stability enhancement
- • Delivery system optimization
- • Compatibility studies
Innovation Pipeline
Current research projects and future developments
Current Projects
- Enhanced hydrolysis process
- Smart delivery systems
- Bioactive compound integration
- Sustainable production methods
Near Future
- AI-driven quality control
- Nano-scale spicules
- Targeted delivery systems
- Multi-functional spicules
Long-term Vision
- Personalized spicule therapy
- Bioengineered enhancement
- Cross-industry applications
- Next-gen manufacturing
Research Partnerships
Collaborating with leading institutions worldwide
Academic Collaborations
We partner with top universities and research institutions to advance the science of bio-microneedle technology and explore new applications in cosmetic and therapeutic fields.
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Seoul National University
Advanced materials research
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KAIST
Biotechnology applications
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Yonsei University
Dermatological studies
Join Our Research Network
Collaborate with SQT to explore new frontiers in bio-microneedle technology and develop innovative cosmetic solutions