Product Overview
Hiyka's Zinc Oxide Nanowires are at the forefront of nanomaterial technology, offering unparalleled performance in a variety of high-tech applications. Crafted with precision, these nanowires exhibit unique electronic, optical, and piezoelectric properties, making them ideally suited for innovations in electronics, optoelectronics, environmental sensing, and energy harvesting. Our Zinc Oxide Nanowires are synthesized through advanced processes, ensuring high purity, uniformity, and exceptional performance.
Key factor
- Exceptional Electrical Properties: Exhibiting outstanding electron mobility, making them perfect for use in nanoscale electronic and optoelectronic devices
- High Optical Transparency: Ideal for applications requiring transparency and conductivity, such as touch screens and photovoltaic cells.
- Piezoelectric Characteristics: Unique piezoelectric properties suitable for energy harvesting devices and sensors.
- High Surface Area: The nanowire form factor offers a high surface area to volume ratio, enhancing catalytic efficiency and sensor sensitivity.
- Thermal Stability: Zinc Oxide Nanowires maintain structural integrity and performance at elevated temperatures.
Applications
- Electronics: Utilized in the development of high-performance photodetectors, LEDs, and ultra-fast transistors.
- Energy: Enhances the efficiency of photovoltaic solar cells and serves as a novel material for supercapacitors and batteries.
- Biomedical: Revolutionizes bio-imaging, targeted drug delivery, and photothermal therapy with its biocompatibility and tunable fluorescence.
- Sensing: Offers high sensitivity and selectivity in chemical and biological sensing applications.
- Environmental: Applied in water purification and environmental monitoring due to its photoluminescent properties and chemical stability.
Advantages
- Versatile Performance: Combines graphene's electrical and mechanical properties with the unique optical characteristics of quantum dots.
- Innovative Solutions: Enables the development of novel devices and systems with improved performance and new functionalities.
- Sustainability: Supports sustainable technology development with eco-friendly production methods and applications in environmental remediation.
- Enhanced Efficiency: Offers potential for significant efficiency improvements in electronic and energy devices.
- Competitive Edge: Provides a material basis for next-generation products, offering a competitive advantage in technology and innovation.
References
- Vinayakan Ramachandran Nair, Kulangara Sandeep, Madhavan Shanthil, Santhakumar Dhanya, Aravind Archana, Muthunayagam Vibin, Hareendran Divyalakshmi. Simple and Cost-Effective Quantum Dot Chemodosimeter for Visual Detection of Biothiols in Human Blood Serum. ACS Omega 2024, 9 (6) , 6588-6594.
- Swapnita Patra, Krishna Manjari Sahu, Jharana Mahanty, Sarat K. Swain. Ex Vivo Glucose Detection in Human Blood Serums with Carbon Quantum Dot-Doped Oleic Acid-Treated Chitosan Nanocomposites. ACS Applied Bio Materials 2023, 6 (12) , 5730-5745.
- Kangkan Jyoti Goswami, Neelotpal Sen Sarma. “Click” Reaction-Mediated Silk Fibroin-Functionalized Thiol-Branched Graphene Oxide Quantum Dots for Smart Sensing of Tetracycline. ACS Omega 2023, 8 (24) , 21914-21928.
