How to Analyze the Technological Replacement Risks of Quantum Dot Films in In-Vehicle Displays? How Do These Risks Relate to Color Gamut Standards?

In this era of rapid automotive technology advancements, in-vehicle display technologies are also evolving rapidly. Quantum dot films, as one important technology, face significant technological replacement risks that warrant thorough analysis. Analyzing the risks of quantum dot film technology can be approached from multiple angles.

Firstly, from a technological development trend perspective, new display technologies are continuously emerging. For example, Micro-LED technology, with its self-luminous, high contrast ratio, and high brightness features, is considered a strong competitor in the future of display technology. Compared to quantum dot films, which have certain advantages in color gamut performance, but may lack in response speed, lifespan, etc., if Micro-LED technology achieves breakthroughs in cost control and large-scale production, it could pose a significant replacement risk to quantum dot film technology.

Secondly, market demand changes are also an important factor influencing technological replacement risks. As consumers' expectations for in-vehicle displays continue to rise, beyond color gamut performance, there is a greater emphasis on display clarity, eye protection, etc. If new technologies can better meet these comprehensive demands, quantum dot film technology may face the risk of being replaced. For instance, some display technologies with low blue light and high refresh rates, if widely recognized in the market, could squeeze out quantum dot film technology's market share.

Risk size is closely related to color gamut standard evolution. As time passes, color gamut standards are continuously updated. Early sRGB color gamut standards have gradually been replaced by wider Rec. 2020 and other standards. When new color gamut standards become mainstream, if quantum dot film technology can quickly adapt and meet the new color gamut requirements, its technological replacement risk will be relatively small. Conversely, if quantum dot film technology encounters bottlenecks in color gamut enhancement and cannot reach the new color gamut standard, then other technologies that can meet the new color gamut standards may rapidly rise to replace quantum dot film technology.

To more intuitively display the differences between various technologies in terms of color gamut performance and other aspects, the following table is provided:

In conclusion, analyzing the technological replacement risks of quantum dot films in in-vehicle displays requires considering multiple factors, including technological development trends and market demand changes, as well as closely monitoring color gamut standard evolution to accurately assess its technological replacement risk size.