What are Photochromic Lenses and their Benefits?

What are Photochromic Lenses and their Benefits?

What are Photochromic Lenses and their Benefits?

What are Photochromic Lenses and their Benefits?

Photochromic lens technology takes in changing light conditions and makes a material respond accordingly. The technology doesn’t just apply to lenses. Similar innovations exist in smart windows that dim when it’s bright outside, UV-sensitive fabrics that change color, and even electronic devices that brighten screens to make them more readable outdoors. The accessibility of photochromic material’s adaptability to lighting has made moving between light conditions easy for wearers. These light-adaptive lenses have transformed the eyewear industry, allowing wearers to transition between clear indoor vision and comfortable outdoor sun protection.

What are photochromic lenses?

Photochromic lenses, also known as light-adaptive or variable tint lenses, are optical lenses that automatically change in response to different light exposures, usually ultraviolet (UV) radiation. When exposed to particular wavelengths of light, the photochromic lenses darken. Removing the UV light source causes the lenses to gradually return to their clear state. The chemical reaction that causes photochromic lenses to darken is temperature-sensitive, meaning the lenses will react differently in warmer or cooler environments. This dynamic property allows a single pair of glasses to function as prescription eyewear and sunglasses, adapting to various lighting conditions throughout the day.

Photochromic vs. Transition lenses

The technology behind photochromic lenses has advanced since its inception in the 1960s. Initially developed using glass, modern photochromic lenses are now predominantly made from advanced plastic materials, offering improved performance and versatility. Sometimes, wearers refer to these types of lenses as “transition lenses”.

While "transition lenses" is a commonly used term, it broadly refers to the general category of light-adaptive lenses. Various manufacturers produce these types of lenses, each incorporating their own proprietary technology and formulations to enhance performance in different lighting environments.

Though it's common to hear the terms "photochromic lenses" and "transition lenses" used interchangeably, this article uses the technical term “photochromic” as it discusses the general technology of light-adaptive lenses.

How do photochromic lenses work?

Photochromic lenses adjust to varying UV conditions on a molecular level, clearing and darkening in response to changes in light. The photochromic molecules embedded in lenses actively alter their shape based on UV light exposure. Molecules respond to different wavelengths, so manufacturers must choose which spectrum the molecules in the lenses should react to.

When UV light is absent, these molecules shift into a closed state, keeping the lenses clear. Once the UV light is present, the molecules transition into an open state to absorb light, causing the lenses to darken significantly under UV rays and remain clear when UV rays are absent. This process repeats automatically, although the efficiency may decrease over time due to normal wear and tear.

Read more: Neochromes lenses

How quickly do photochromic lenses work?

The speed at which photochromic lenses darken and clear is crucial to their performance. Most modern photochromic lenses begin to darken almost immediately upon exposure to UV light, with significant tinting occurring within 30 seconds. The speed at which darkening occurs depends on the intensity of the UV light and the particular lens technology.

The clearing process is slower than the darkening process. This gradual fadeback process occurs across all photochromic lenses, regardless of the lens design and manufacturer. On average, these lenses take about 2–3 minutes to return to their clear state indoors or under less UV exposure.

Photochromic lenses and temperature

Photochromic lenses and temperature

Temperature can affect the performance of photochromic lenses. In colder temperatures, the lenses darken more and take longer to clear. Conversely, they may not darken as much in warmer conditions but will clear more quickly. Though this might seem counterintuitive, it is caused by the chemical reactions occurring on a molecular level. Specifically, this process is an exothermic reaction with the molecules continually shifting in an effort to find equilibrium in the system. Some advanced photochromic technologies offer improved activation and fade-back times, providing a more responsive user experience.

Read about Neochromes Dark →

At lower temperatures, the energy barrier for lenses returning to the clear state is higher, meaning the molecules remain in their darkened, open state for longer. Additionally, the colder environment slows down the thermal energy that would otherwise drive the molecules back to their clear state.

In contrast, higher temperatures provide more thermal energy, which helps the molecules overcome the energy barrier needed to return to the closed, clear state. The increased thermal energy speeds up the reverse reaction, causing the molecules to revert to their clear state more rapidly after removing the UV light. The ease in overcoming the thermal barrier also results in less darkened lenses.

Do photochromic lenses wear out?

While manufacturers craft photochromic lenses for long-term use, their performance can degrade over time. The photochromic molecules undergo a fatigue process with repeated exposure to UV light and temperature changes. This gradual wear can result in slower darkening and clearing times and a reduced level of darkness.

Different factors determine the lifespan of photochromic lenses, such as the frequency of use and exposure to extreme temperatures. The molecules used are very delicate, and the substrate and method of application will influence performance and longevity. To extend the performance of photochromic lenses, experts recommended storing them in a cool, dark place when not in use and avoiding leaving them in hot environments, such as a car dashboard on a sunny day.

What are photochromic lenses made from?

Manufacturers create photochromic lenses from various materials, with plastic being the most common in modern eyewear. The base lens material is typically one of the following:

  • Polycarbonate: A popular choice due to its impact resistance and lightweight properties.
  • High-index plastic: Offers a thinner profile for higher prescriptions.
  • Trivex: Combines impact resistance with excellent optical clarity.
  • CR-39 plastic: A standard plastic lens material with good optical qualities.

The photochromic molecules are then incorporated into these base materials using different methods.

Benefits of Photochromic Lenses

Photochromic lenses offer several advantages for wearers:

1. Convenience

A single pair of glasses adapts to various lighting conditions, eliminating the need to switch between regular glasses and sunglasses. In situations like traveling, when a wearer doesn’t want to juggle between multiple glasses, keeping track of only one pair of glasses is much easier.

2. UV protection

Photochromic lenses block 100% of UVA and UVB rays, protecting eyes from harmful ultraviolet radiation.

3. Glare reduction

When darkened, these lenses reduce glare, enhancing visual comfort in bright conditions.

4. Blue light filtering

Many photochromic lenses also offer some protection against blue light, both from digital screens and natural sunlight.

5. Cost-effective

While initially more expensive than standard lenses, photochromic lenses can be more economical than purchasing separate prescription glasses and sunglasses.

6. Reduced eye strain

By automatically adjusting to light conditions, these lenses help reduce eye fatigue and strain.

7. Aesthetically pleasing

Modern photochromic lenses are available in various tints, like grey, brown, and green, and can be incorporated into any frame style.

Who should wear photochromic lenses?

Photochromic lenses are suitable for a wide range of users, including:

  • People who frequently transition between indoor and outdoor environments.
  • Individuals sensitive to light or prone to eye strain, including presbyopes.
  • Those who want convenient UV protection without carrying multiple pairs of glasses.
  • People who engage in outdoor activities but don't want to switch between regular glasses and sunglasses.
  • Children and teenagers, as their eyes are more susceptible to UV damage.

Progressive photochromic lenses

Presbyopes with heightened sensitivity to light can struggle to find the perfect solution. Some lens designers offer options that combine the technology and benefits of photochromic and progressive lenses. This combination provides multifocal vision correction and adapts to varying light and UV conditions, allowing wearers to manage their vision needs with just one pair of glasses throughout the day.

Read about Neochromes with Camber Technology

 Our top-of-the-range Neochromes lens with Camber Technology delivers the best optics and aesthetics in high-performance photochromic lenses.

Read more

Do photochromic lenses work for all vision and lens types?

One of the great advantages of photochromic technology is its versatility. Manufacturers can incorporate this technology into virtually all vision correction types and lens designs, including:

Labs can combine photochromic technology with other lens enhancements, such as anti-reflective coatings, scratch-resistant treatments, mirror coatings, and even polarization.

However, it's important to note that photochromic lenses may not be ideal for everyone, and some disadvantages exist. For instance, car windshields often filter the UV light needed to activate the lenses, so even if the photochromic molecules were selected to respond to visible light, the lenses may not darken enough when driving to be effective. If a wearer uses single-vision lenses for driving, a photochromic lens would not benefit them.

Photochromic lenses represent a significant advancement in eyewear technology, offering convenience, protection, and adaptability. As the technology continues to evolve, we can expect even faster reaction times and enhanced performance in various environments. Photochromic lenses are likely to play an increasingly important role in the eyewear industry, continuing to bridge the gap between clear indoor vision and comfortable outdoor eye protection.

Elevate your lab’s offerings with IOT photochromic lenses

IOT’s photochromic lenses offer record-setting darkening abilities and some of the fastest fade-back times. If you’re interested in enhancing your lab’s portfolio by adding our photochromatic lenses, please contact us. Our team would love to answer your questions.

You may also like:
Guide to Optical Lenses: The Science Behind How They Work
Single-Vision vs Progressive Lenses: Understanding the Difference

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