Ultraviolet (UV) exposure overdose can cause health issues such as skin burns or other skin damage. In this work, a UV and temperature sensor smartwatch is developed, utilizing a multimaterial 3D printing approach via a vat photopolymerization–digital light processing technique. Photochromic (PC) pigments with different UV sensitivities, UVA (315–400 nm) and UVB (315–280 nm), were utilized to cover a wider range of UV exposure and were mixed in transparent resin, whereas the smartwatch was printed with controlled thickness gradients. A multifunctional sensor was next fabricated by adding a thermochromic (TC) material to PC, which is capable of sensing UV and temperature change. Colorimetric measurements assisted by a smartphone-based application provided instantaneous as well as cumulative UV exposure from sunlight. The mechanical properties of the device were also measured to determine its durability. The prototype of the wearable watch was prepared by fixing the 3D-printed dial to a commercially available silicon wristband suitable for all age groups. The 3D-printed watch is water-resistant and easily removable, allowing for its utilization in multiple outdoor activities. Thus, the developed wearable UV sensor alerts the user to the extent of their UV exposure, which can help protect them against overexposure.
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机译:紫外线 (UV) 暴露过量会导致健康问题,例如皮肤灼伤或其他皮肤损伤。在这项工作中,开发了一种紫外线和温度传感器智能手表,通过大桶光聚合-数字光处理技术利用多材料 3D 打印方法。具有不同紫外线敏感性的光致变色 (PC) 颜料 UVA (315-400 nm) 和 UVB (315-280 nm) 用于覆盖更广泛的紫外线照射范围,并混合在透明树脂中,而智能手表则以受控的厚度梯度打印。接下来,通过在 PC 中添加热致变色 (TC) 材料来制造多功能传感器,该材料能够感应紫外线和温度变化。在基于智能手机的应用程序的辅助下进行比色测量,提供来自阳光的瞬时和累积紫外线照射。还测量了设备的机械性能以确定其耐用性。这款可穿戴手表的原型是通过将 3D 打印表盘固定在适合所有年龄段的市售硅胶腕带上来制备的。这款 3D 打印手表防水且易于拆卸,可用于多种户外活动。因此,开发的可穿戴紫外线传感器会提醒用户他们的紫外线暴露程度,这有助于保护他们免受过度暴露。
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