Toray Announces Photodefinable Nanocarbon Conductive Paste that Could Revolutionize Micro-Mounting and Productivity for Micro-LEDs and Semiconductors

21 July 2023

Toray Industries, Inc., announced today that it has developed a material that can bond micro-electronic components at temperatures more than 30°C lower than with existing technologies—less than half their levels and under low-pressure conditions. It achieved this breakthrough by integrating adhesion technology with its RAYBRID® photodefinable conductive material, which it is developing for wiring in electronic components, touch sensors, and other applications. The company plans to start mass production in early 2025. RAYBRID is a photodefinable functional material incorporating dispersed metals and other conductive particles and glass, ceramics, and other insulating particles.

Solder, a common bonding material, and other alloys are unsuitable for high-speed mounting. That is because it is hard to miniaturize bumps, while mounting necessitates high temperatures and pressure. This has become a significant mass production issue because of challenges with micro-LED displays. That emerging display technology requires large-volume, high-speed mounting of LED chips just 10 to 20 micrometers large.

This situation prompted Toray to develop a photodefinable carbon paste by combining proprietary nano-carbon dispersion technology with photodefinable conductive paste technology incorporating silver and other metallic particles that it has amassed over the years. The carbon enhances reliability, enabling bonding with wiring across diverse applications.

The company employed the mounting and laser transfer facilities of Toray Engineering Co., Ltd., to verify large-area batch mounting and repair technology.

Toray has built a robust mass production and supply structure in developing photodefinable conductive materials for electronic components, displays, touch sensors, and other applications over the past two decades. It will leverage its new bonding material to broaden its materials lineup and expand its business in micro-LEDs, semiconductors, and other new fields.

Toray will keep leveraging core technologies in organic chemistry, polymer chemistry, biotechnology, and nanotechnology to undertake R&D and conceive innovative materials that drive fundamental social change. In so doing, it will endeavor to materialize its corporate philosophy of contributing to society by creating new value through innovative ideas, technologies, and products.