Nanoparticle-Based Thin Films, as a cutting-edge technology in materials science, has set off a wave of innovation in the fields of chemicals, coatings, inks, adhesives, etc., with its high specific surface area, adjustable physical and chemical properties, and multifunctional integration capabilities. It is predicted that the global nanofilm market will exceed US$300 billion in 2030, with an average annual compound growth rate of more than 12%2. The N-1715 nano-zirconia dispersion launched by Shenzhen U-Sunny has become the core material for the preparation of high-performance thin films by precisely controlling the nanoparticle size (<50nm) and dispersion stability, enabling the industry to break through technical bottlenecks.
N-1715's technological breakthrough: dual advantages of performance and process
Ultra-uniform film formation and optical performance
N-1715 adopts water-based nano-dispersion technology, with a transmittance of over 90%, which is suitable for the optical coating needs of flexible substrates (such as PET, PC). Its nano-level uniformity avoids the orange peel defects of traditional films, and the yield rate is increased by more than 20%.
Weather resistance and environmentally friendly process
Through surface hydroxylation modification, N-1715 has a hydrolysis resistance time of 3,000 hours in a high temperature and high humidity environment (85℃/85%RH), which is suitable for protective coatings for automotive electronics and outdoor equipment. The water-based formula has a VOC close to zero, complies with the EU RoHS standard, and reduces the production cost of coatings by 30%.
Multi-scenario compatibility
Compatible with spraying, scraping and screen printing processes, it is suitable for photovoltaic cell passivation films, conductive inks and electronic packaging adhesives. For example, adding N-1715 to conductive ink can reduce impedance by 15% and improve the signal stability of flexible circuits.
Cross-industry applications: from functional coatings to smart manufacturing
High-performance coatings and industrial protection
Automotive coatings: N-1715 enhances the wear resistance (surface hardness up to 6H) and anti-ultraviolet yellowing performance of the coating, extending the life of outdoor equipment.
Photovoltaic anti-reflection film: By regulating the arrangement of nanoparticles, the light absorption efficiency of photovoltaic modules is increased by 10%, which is adapted to the requirements of PECVD process.
Functional inks and printed electronics
The nano-dispersion characteristics of N-1715 optimize the leveling of silver paste, reducing the impedance fluctuation rate of printed circuits from 15% to 5%, and promoting the mass production of 5G antennas and flexible sensors.
Electronic adhesives and packaging materials
Adding N-1715 to epoxy resin can increase the thermal conductivity to 2.5 W/m·K, reduce the void rate of LED packaging to 0.1%, and extend the device life to 50,000 hours.

Driven by environmental transformation
Nano film technology is in line with the global trend of carbon reduction. The bio-based compatible design of N-1715 supports the EU's "New Battery Regulation" and promotes carbon neutrality solutions in the photovoltaic and semiconductor fields.
Miniaturization and high-precision requirements
In wearable devices, N-1715 can achieve ultra-thin coatings (<10μm), meeting the lightweight requirements of AR/VR headsets and folding screens.
Shenzhen U-Sunny's Nanoparticle-Based Thin Films solution (N-1715) takes material innovation as the core, providing an efficient and sustainable upgrade path for the chemical, electronics and new energy industries. Its high compatibility, environmental protection characteristics and cost advantages not only meet the needs of high-end display and protection, but also promote the transformation of coatings, adhesives and other fields to green intelligent manufacturing, leading the next generation of material revolution.

