Apple will optimize the battery of the iPhone 16 in several aspects!
Among the list of updates that will arrive with the launch of the new iPhone 16 family, Apple has reserved several lines for the optimization of its battery. The new features would help to rule out overheating of the battery and consequently reduce or eliminate the recurring complaint from users of various generations of iPhone, especially those of the iPhone 15 Pro and iPhone 15 Pro Max.
According to recent reports, graphene will be Apple’s great ally in achieving this goal.
How will graphene be used in the iPhone 16?
Before we get into how Apple plans to address battery overheating, let’s get things started first, What is graphene?
Graphene is a high-quality material that stands out mainly for its hardness, lightness and flexibility. In fact, it is a material so hard that it is up to 200 times stronger than steel.
Among its properties It highlights its high thermal conductivity, which makes it an ideal candidate for dissipating the heat generated by the internal components of electronic devices.And yes, that’s why Apple will use it in the iPhone 16.
Overheating issues on the iPhone 15 Pro and Pro Max were addressed with software updates, but prompted a search for more structural solutions. The use of titanium in the casing, although providing strength and lightness, has proven to be less efficient in conducting heat than traditional steel.
To solve the disadvantage, Apple could incorporate a layer of graphene adhered to the processor in future iPhone 16 Pro models.
This solution, compared to the graphite pads currently used, would allow for much more effective heat dissipation. By directing heat away from the chip, the risk of overheating would be significantly reduced and battery life would be extended.
Graphene vs. a vapor chamber
In one of his reports the reliable analyst Ming Chio Kuo suggested that Apple could address the problem with a vapor chamberusing a process similar to the one Samsung used on the Galaxy S24 Ultra to offset the additional heat the phone might generate due to the use of titanium.
These advantages Its implementation may increase the weight and thickness of the devices. Apple, always looking for elegant and lightweight designs, might prefer the graphene solution, which is thinner and more flexible.
By taking advantage of graphene’s exceptional properties, such as its high thermal conductivity and lightness, Apple seeks to permanently solve overheating problems in future iPhone 16 Pro. This solution will not only benefit battery life, but also improve overall device performance and user experience.
With just a few weeks to go until the iPhone 16 launch, it’s certain that leaks and rumors will increase regarding the features of the devices. And while some will be more accurate than others, There is no doubt that Apple has prepared a major update, largely forced by new functions based on Artificial Intelligence. that it offers in its ecosystem.