Customizable sapphire watch dial, high transparency,
scratch-resistant high Durability
Optical Clarity: Our customized sapphire window wafer exhibits exceptional optical
clarity, allowing for precise light transmission without distortion
or scattering. This property ensures high-quality imaging and
optical performance in medical and optical applications.
Hardness: Constructed from sapphire, known for its exceptional hardness
(second only to diamond), our window wafer offers superior scratch
resistance and durability. It withstands abrasion and maintains its
integrity even in harsh operating conditions.
Chemical Inertness: The sapphire material used in our window wafer is highly inert,
resisting corrosion and degradation when exposed to harsh chemicals
and cleaning agents. This property ensures long-term stability and
reliability in medical and optical environments.
Dimensional Accuracy: Our window wafer is precision-engineered to exacting
specifications, with uniform thickness and precise circular holes.
This dimensional accuracy ensures seamless integration into optical
systems and medical devices, minimizing assembly and alignment
issues.
High Transmittance: With its high optical transmittance across a broad spectrum of
wavelengths, our sapphire window wafer allows for efficient light
transmission, essential for optical clarity and imaging quality in
medical and optical instruments.
Temperature Stability: The sapphire material offers excellent thermal stability,
maintaining its optical and mechanical properties over a wide
temperature range. This property ensures consistent performance in
applications with varying temperature conditions.
Biocompatibility: Our sapphire window wafer is biocompatible, making it suitable for
use in medical devices and implants. It is inert to bodily fluids
and tissues, minimizing the risk of adverse reactions and ensuring
compatibility with biological systems.
Customizability: We offer customization options for our window wafer, including
diameter, thickness, and hole size and arrangement, to meet the
specific requirements of your medical and optical applications.
Medical Imaging: Our customized sapphire window wafer is utilized in medical
imaging devices such as endoscopes, laparoscopes, and optical
coherence tomography (OCT) systems. Its optical clarity and
durability enable high-quality imaging with minimal distortion,
contributing to accurate diagnoses and surgical procedures.
Laser Systems: The sapphire window wafer serves as a protective cover or optical
element in laser systems used in medical and aesthetic treatments,
ophthalmology, and dermatology. It withstands high-energy laser
beams while maintaining optical integrity, ensuring safety and
reliability in laser procedures.
Biomedical Sensors: In biomedical sensing applications, our sapphire window wafer
functions as a substrate for biosensors and microfluidic devices.
Its biocompatibility, chemical inertness, and optical transparency
enable precise detection and analysis of biological samples,
facilitating medical diagnostics and research.
Optical Instruments: Our window wafer is integrated into various optical instruments
such as spectrophotometers, fluorometers, and microscopes. Its high
optical transmittance and dimensional accuracy contribute to
accurate measurements and imaging, supporting scientific research
and laboratory analysis.
Photonics and Telecommunications: In photonics and telecommunications applications, our sapphire
window wafer serves as a key component in optical switches,
fiber-optic couplers, and wavelength division multiplexers (WDM).
Its optical clarity and low optical loss facilitate efficient
signal transmission and manipulation in optical communication
networks.
Protective Covers: Our window wafer is used as a protective cover for delicate
optical components and sensors in medical devices, analytical
instruments, and aerospace systems. Its scratch resistance and
durability shield sensitive components from damage while
maintaining optical performance.
Microfluidics and Lab-on-a-Chip: In microfluidic devices and lab-on-a-chip systems, our window
wafer provides a transparent and biocompatible platform for
manipulating fluids and conducting analytical assays. Its precise
dimensions and uniform perforations enable controlled fluid flow
and detection of biochemical reactions.
Optoelectronic Devices: Our sapphire window wafer is employed in optoelectronic devices
such as photodetectors, LEDs, and photovoltaic cells. Its optical
transparency, thermal stability, and resistance to environmental
degradation enhance the performance and reliability of these
devices in diverse applications.
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