Silicon Nanowires (SiNWs) are an advanced nanostructured material with a high purity of 99%, offering exceptional electrical conductivity, mechanical flexibility, and high surface area. These ultrathin (100-200nm diameter) and long (>10µm) silicon nanowires are widely used in next-generation lithium-ion battery anodes, nanoelectronics, optoelectronics, and semiconductor applications.
With their unique 1D nanostructure, these silicon nanowires significantly enhance charge storage capacity, improve ion transport efficiency, and provide high mechanical stability in battery electrodes. Their large surface-to-volume ratio makes them ideal for energy storage applications, particularly for high-performance lithium-ion and solid-state batteries, where they help increase energy density and cycling stability.
Key Features:
✅ High Purity (99%) Silicon Nanowires – Ensures reliable performance in advanced applications.
✅ Ultra-Thin Diameter (100-200nm) – Increases surface area for enhanced conductivity.
✅ Long Structure (>10µm Length) – Improves mechanical stability and charge transport.
✅ Superior Electrochemical Properties – Ideal for high-capacity energy storage and semiconductor devices.
✅ Enhanced Ion Transport Efficiency – Reduces charge resistance and boosts energy output.
✅ Highly Flexible & Durable – Supports long-term performance in extreme conditions.
Applications:
🔹 Next-Generation Lithium-Ion & Solid-State Batteries – Used as a high-performance anode material.
🔹 Semiconductors & Nanoelectronics – Key material for transistors and flexible electronics.
🔹 Optoelectronic & Photovoltaic Devices – Enhances solar cell efficiency and light absorption.
🔹 Energy Storage & Supercapacitors – Improves charge/discharge cycling and power density.
🔹 Nano-Sensors & Biomedical Devices – Applied in medical diagnostics and chemical sensing.
These high-purity Silicon Nanowires are essential for cutting-edge research and industrial applications, offering superior energy storage, conductivity, and durability. Whether used in battery development, semiconductor innovation, or advanced electronics, this nanomaterial is a crucial component for next-generation technologies.
