Product Overview
Hiyka proudly introduces its ZnCdSeS Quantum Dots, a state-of-the-art solution blending low cadmium content with hydrophobic characteristics to meet the latest demands in advanced material science. Engineered for exceptional performance in optoelectronics, photonics, and high-performance coatings, our quantum dots offer vibrant, stable luminescence across a broad spectrum, making them ideal for a wide range of applications. The low cadmium content ensures environmental safety and compliance with stringent regulations, while the hydrophobic nature allows for seamless integration into various non-aqueous systems and products.
Key factor
Low Cadmium Content: Minimizes environmental and health impacts, aligning with global safety standards and regulations.
Hydrophobic Surface: Ensures easy dispersion in organic solvents, facilitating the integration into industrial applications and products.
Bright and Stable Luminescence: Provides a wide color spectrum with high quantum yield and photostability, enhancing the visual and functional qualities of applications.
Enhanced Durability: The robust chemical structure of ZnCdSeS Quantum Dots offers increased resistance to photobleaching and chemical degradation.
Versatile Usage: Tailored for applications in LED lighting, display technologies, solar cells, and security inks, as well as in biomedical imaging where non-aqueous solvents are preferred
Applications
Optoelectronic Devices: Enhances the color quality and efficiency of LEDs and display panels, contributing to brighter and more energy-efficient solutions.
Solar Energy: Utilized in photovoltaic cells to improve light absorption and conversion efficiency, supporting the development of next-generation solar technologies.
Biomedical Imaging: Suitable for use in non-aqueous bioimaging applications, offering precise targeting and high-contrast imaging capabilities.
High-Performance Coatings: Applies in specialty coatings requiring luminous properties, including automotive paints and security markings.
Research and Innovation: A valuable tool for academic and industrial research focused on exploring the potential of quantum dot technology in new applications.
Advantages
- Environmental Safety: Offers a safer alternative to traditional quantum dots, reducing the reliance on heavy metals without compromising performance.
- Superior Optical Properties: Delivers unmatched color purity and brightness, opening new possibilities in visual applications.
- Customization Flexibility: Available in various emission wavelengths, enabling customization for specific project requirements.
- High Compatibility: Easily incorporated into polymers, resins, and other materials, enhancing product capabilities and innovation potential.
- Sustainable Technology: Supports the development of green technologies and products, aligning with environmental sustainability goals.
References
- Zhu X, Duan D, Publicover NG (2010) Magnetic bead based assay for C-reactive protein using quantum-dot fluorescence labeling and immunoaffinity separation. Analyst 135:381–389
- Wu F, Yuan H, Zhou C, Mao M, Liu Q, Shen H, Cen Y, Qin Z, Ma L, Li LS (2016) Multiplexed detection of influenza A virus subtype H5 and H9 via quantum dot-based immunoassay. Biosensors and Bioelectronics 77:464–470
- Liu W, Howarth M, Greytak AB, Zheng Y, Nocera DG, Ting AY, Bawendi MG (2008) Compact biocompatible quantum dots functionalized for cellular imaging. J Am Chem Soc 130:1274–1284