XLYNX Materials announces a pioneering breakthrough in the direct photopatterning of colloidal quantum dots (QDs), addressing long-standing challenges in resolution, scalability, and material stability. Recently featured in the Journal of the American Chemical Society, the research showcases how electron-optimized diazirine-based crosslinkers enable non-destructive, high-resolution patterning of QDs without compromising their luminescent properties.

Quantum dots play a crucial role in next-generation technologies, from ultra-high-definition full-color displays to hyperspectral imaging systems. However, conventional photolithography disrupts their delicate surface chemistry, limiting optical and electronic performance. XLYNX’s diazirine-based crosslinkers introduce a precise, air-stable, and scalable solution that eliminates the need for traditional photoresists and etchants, ensuring seamless integration with standard photolithography processes.

Unlike conventional methods that compromise QD integrity, XLYNX’s innovative crosslinkers enable non-destructive patterning, preserving the properties of heavy metal-free InP/ZnSe/ZnS quantum dots under ambient conditions. This breakthrough allows for high-resolution imaging with precision exceeding 13,000 pixels per inch (ppi), while simultaneously enhancing device performance—achieving peak external quantum efficiency (EQE) of 15.3% and a maximum luminance of approximately 40,000 cd/m².

Beyond performance improvements, XLYNX’s approach aligns with the growing demand for sustainable manufacturing. By eliminating the need for toxic photoresists and etchants, this technology significantly reduces environmental impact while maintaining compatibility with existing industrial workflows.

With applications spanning multiple industries, XLYNX’s photopatterning technology is poised to drive innovation in high-performance QLED, OLED, and microLED displays, flexible electronics such as foldable screens and wearable devices, and photonics-based technologies including quantum dot lasers and sensors. As an eco-friendly alternative to traditional lithography, it offers a scalable and industry-ready solution for next-generation electronic and optoelectronic devices.

To learn more about the electronically-optimized diazirine crosslinking technology developed by XLYNX Materials, contact us at info@xlynxmaterials.com. Sample-sized quantities of BondLynx and PlastiLynx are available to ship, and our team is standing by to assist with your questions and trials.