And it presents an intriguing option for phone screens due to its remarkable properties.
However, several challenges may deter its adoption. Firstly, the material is expensive, which would drastically elevate the phone's cost. Secondly, its heavier weight could compromise portability and require a larger battery, complicating design and increasing expenses. Machining ALON is also problematic due to its hardness, introducing complexities in manufacturing. Additionally, its suitability for capacitive touchscreens is uncertain, potentially necessitating an extra conductive layer that could impact screen clarity and touch sensitivity.
Despite these challenges, the concept of an ALON screen has its merits, particularly its near "unbreakable" nature. Such a feature could captivate a niche market that seeks super-premium, ultra-durable phones, akin to luxury vehicles with platinum finishes. However, considerable hurdles remain, including high R&D costs, complex manufacturing, and the need for market validation to justify such a venture. As a specialized offering or a luxury gimmick, an ALON-equipped phone could be intriguing, but it would require a bold company willing to invest in the technology and a consumer base willing to pay the premium.