Technology
Our Enabling Technology
Innofocus is revolutionising nanofabrication with its laser nanoprinting technology, a cutting-edge platform that combines ultrafast laser systems, AI-driven image recognition, innovative software, precise control system and advanced circuitry design to deliver unparalleled precision, scalability, and intelligence. This integrated approach enables the creation of highly complex nanostructures with sub-100 nm resolution, making it ideal for applications such as quantum photonic chips, hyperspectral imaging, sensing devices, and optoelectronics. By seamlessly integrating AI algorithms, software innovation, and precision circuitry design, Innofocus is redefining the boundaries of nanofabrication and enabling breakthroughs in device development.
Multi-Material Applicable Laser Processing
Based on these market needs, Innofocus introduces high-power femtosecond lasers with tuneable repetition rate (1kHz-500 kHz) and high-pulse energy (up…
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Position-Time Synchronised Trigger (PTST)
Innofocus have developed the PTST (Position-Time Synchronised Trigger) module. The PTST technology has been integrated into Innofocus’ world-leading n…
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Automatic Fibre Core Tracing Technology
Innofocus also developed automatic fibre core tracing function enabled by AI-vision. It can automatically identify the fiber core and monitor the fabr…
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PowerFlex Control Module
High power stability and precise power control are essential to guarantee the high-quality manufacturing of fibre Bragg grating (FBG). PowerFlex is a …
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Surface Autotracing Technology
AI-Vision assisted surface autotracing technology developed by Innofocus allows the nanofabrication system to automatically trace the surface of the m…
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Surface Autolanding Technology
AI-Vision assisted surface autolanding technology developed by Innofocus includes a 3-step process as shown in these images
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Applications We Can Do
Quantum Photonic Chips Prototyping
We Are Building Capabilities for QPC design, simulation, manufacturing and characterisation
Microlens Array
One important branch of computational imaging is light field imaging. The core optical element in optical field imaging is the microlens array, which …
Highly Encrypted Nanoprinted Colorful Digital ID Tags
Innofocus nanoLAB Intelligent Laser Nanofabrication product family meets the customers’ needs from both academia and industry.
Publications We Support
Two Hundred Nanometer Thin Multifocal Graphene Oxide Metalens for Varying Magnification Broadband Imaging
Conventional microscopes, which rely on multiple objective lenses for varying magnifications, are bulky, complex, and costly, making them difficult to…
Multi-Wavelength Achromatic Graphene Metalenses for Visible, NIR, and Beyond
The demand for achromatic ultrathin flat lenses has become increasingly stringent, particularly for high-performance imaging and display applications.…
Ultra-high NA graphene oxide flat lens on a fiber facet with near diffraction-limited focusing
The realization of a high numerical aperture (NA) fiber lens is critical for achieving high imaging resolution in endoscopes, enabling subwavelength o…
Direct laser writing on halide perovskites: from mechanisms to applications
Metal halide perovskites have emerged as game-changing semiconductor materials in optoelectronics. As an efficient micro-/nano-manufacturing technolog…
Highly efficient flexible structured metasurface by roll‑to‑roll printing for diurnal radiative cooling
An ideal radiative cooler requires accurate spectral control capability to achieve efficient thermal emission in the atmospheric transparency window (…
Graphene oxide for photonics, electronics and optoelectronics
Graphene oxide (GO) was initially developed to emulate graphene, but it was soon recognized as a functional material in its own right, addressing an a…
