MONO LASER specializes in the research and application of ultrafast laser micromachining technology, encompassing equipment R&D, production, sales, and subcontracting services. As the demand for precision micro-nano manufacturing continues to grow, our femtosecond laser technology is widely adopted across industries such as biomedical, aerospace, advanced semiconductor packaging, and consumer electronics.
Semiconductor microelectronics involves designing and manufacturing small electronic components/chips, widely used in modern devices. As electronics go lighter/thinner, semiconductor manufacturing requires higher efficiency and precision. Laser micromachining, with high-precision, efficient, pollution-free advantages, is widely applied in precision electronic hardware processing.MONO LASERexpertise in femtosecond laser micromachining can offer ultra-high precision results at the submicron level,...
or a long time, the field of ultra-precision optical machining has been constantly shrouded by towering technical barriers. As an expert in femtosecond lasermicro-nanomachining, MONO LASERprovides a brand-new and efficient solution to tackle the challenges of fine processing of optical components.
The aerospace and automotive industries demand ultra-precise, reliable, and stable manufacturing solutions for complex components. Femtosecond laser technology, with its micron-level accuracy and minimal thermal impact, excels in processing intricate geometries and advanced materials critical to these sectors. Compatible with materials ranging from aluminum and nickel-titanium alloys to high-strength polymers, femtosecond lasers empower both industries to achieve lightweight designs, functional ...
The trend of precision and miniaturization in medical devices imposes strict requirements on manufacturing processes. Femtosecond laser technology, with its characteristics such as ultra-short pulses (10⁻¹⁵ seconds) and "cold processing," provides strong support for key components in medical manufacturing.
Femtosecond laser processing exhibits remarkable advantages in micro-nano fabrication, enabling the construction of micro-to-nano-scale structures, such as micro-devices and nano-structure arrays. The technology also allows precise regulation of material surface morphology, covering surface modification, nano-structure construction, and thin-film preparation—critical for enhancing material properties.Femtosecond laser processing aids in exploring ultrafast dynamic behaviors of electrons, photons...
