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Ultraviolet (UV) exposure significantly contributes to non-melanoma skin cancer. In the context of health, UV exposure is the product of time and the UV Index (UVI), a weighted sum of the irradiance I(λ) over all wavelengths from λ = 250 to 400 nm. In our analysis of the United States Environmental Protection Agency’s UV-Net database of over 400,000 spectral irradiance measurements taken over several years, we found that the UVI is well estimated by 77 I310. To further understand this result, we applied an optical atmospheric model to generate terrestrial irradiance spectra and found that it applies across a wide range of conditions. An accurate UVI radiometer can be built from a photodiode covered by a bandpass filter centered at 310 nm.
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Smart Tattoos of Intradermally Implanted Photochromic Nanosensors for Personal UV Sensing and Dosimetry
Abstract Monitoring personal ultraviolet (UV) exposure facilitates risk mitigation against UV‐induced skin aging and skin cancer, the most common malignancy in North America, Europe, and Australia. UV radiometers convey real‐time information on local UV irradiance, while UV dosimeters count accumulated UV exposure over time. These devices can help users manage exposure levels in order to reach a healthy daily dose of UV light required for vitamin D production without exceeding erythemal limits that would increase skin cancer risk. However, personal UV detectors still suffer from several limitations. Wearable electronic UV sensors are relatively bulky, heavy, and expensive, while the more commonly used on‐skin disposable colorimetric UV sensors suffer from short service life, skin discomfort, and high accumulated costs when used daily as recommended. Intradermal colorimetric UV nanosensors can overcome these limitations, offering long‐term, comfortable, and inexpensive naked‐eye colorimetric indication of intradermal UV irradiance. Now, a new generation of UV‐sensing intradermal pigments with an improved design offers better tunability, stability, and biocompatibility. These UV‐photochromic nanosensors may be operated as UV dosimeters or simple sunscreen efficacy monitors, depending on the formulation, and can remain functional and re‐usable in the dermis for years.
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- Award ID(s):
- 2235902
- PAR ID:
- 10533818
- Publisher / Repository:
- Wiley Blackwell (John Wiley & Sons)
- Date Published:
- Journal Name:
- Advanced Functional Materials
- ISSN:
- 1616-301X
- Format(s):
- Medium: X
- Sponsoring Org:
- National Science Foundation
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