Product Overview
Hiyka's Zn-Cu-In-S/ZnS Quantum Dots represent the latest in eco-friendly nanotechnology, offering a cadmium-free, hydrophobic solution for advanced applications in optoelectronics, photonics, and more. These quantum dots combine exceptional luminescent properties with an environmentally conscious formulation, providing a safe and versatile alternative for industries seeking to minimize hazardous substances without compromising on performance. Ideal for integration into non-aqueous systems, our hydrophobic quantum dots open new avenues for product development in areas ranging from advanced displays and lighting to biomedical imaging and security tagging.
Key factor
Cadmium-Free Composition: Offers a safer, environmentally friendly alternative to traditional quantum dots without sacrificing luminescence quality.
Superior Luminescence: Provides bright, stable emission across a broad spectrum, enabling vibrant colors and clear signals for various applications.
Hydrophobic Surface: Ensures easy dispersion in organic solvents and polymers, facilitating integration into a wide range of materials and devices.
Enhanced Stability: The ZnS shell enhances photostability and chemical resistance, extending the usable life of the quantum dots in demanding environments.
Versatile Application Potential: Tailored for use in optoelectronics, security inks, biomedical imaging, and more, supporting innovation across industries.
Applications
Optoelectronic Devices: Enhances LEDs, solar cells, and display technologies with vivid colors and efficient light emission.
Biomedical Imaging: Ideal for non-aqueous bioimaging applications, offering bright, stable fluorescence for targeted imaging and diagnostics.
Security and Branding: Utilized in anti-counterfeiting measures for high-value goods, providing unique, customizable optical signatures.
Advanced Coatings: Applied in specialty coatings and paints that require luminescent properties for aesthetic or functional purposes.
Research and Development: A valuable tool for exploring the potential of cadmium-free quantum dot technology in new and existing applications.
Advantages
- Environmental Sustainability: Reduces reliance on toxic materials, supporting green technology initiatives and compliance with regulatory standards.
- High-Performance: Delivers exceptional optical properties, ensuring that eco-friendly does not mean a compromise on quality or effectiveness.
- Customization Flexibility: Available in various emission wavelengths, allowing for precise tailoring to specific project needs.
- Durable and Reliable: Designed for longevity in a variety of applications, from industrial uses to cutting-edge research.
- Innovative Potential: Opens up new possibilities for environmentally responsible product development and technological advancement.
References
- Feng, Q.; Wei, W.; Zhang, B.; Wang, H.; Wang, J.; Cong, H.; Wang, T.; Zhang, J. O-Band and C/L-Band III-V quantum dot lasers monolithically grown on ge and si substrate. Appl. Sci. 2019, 9, 385.
- Qin, Y.; Feng, X.; Liu, Y. Nonlinear refractive index in rectangular graphene quantum dots. Appl. Sci. 2019, 9, 325.
- Ganesan, A.A.; Houtepen, A.J.; Crisp, R.W. Quantum dot solar cells: Small beginnings have large impacts. Appl. Sci. 2018, 8, 1867.