Maximum temperature of 0.5-W infrared laser-Illuminated gold nanorod platforms

Data concern a system consisted of two pieces of borosilicate glass surrounded by air and joined together by a transparent glue, which is to serve as a thermal transducer. On the top and bottom sides of the smaller piece, gold nanorods are dislocated. Glass is prepared here due to its high transparency, facilitating heat to be produced within the system. On the top of the glassy domain (4), where the gold nanorods are dislocated, parallel laser beams are directed. Due to the large distance between them, some light penetrates the top and reaches the second, bottom gold surface. Results concern time responses of maximum temperature 5 μm above and 5 μm under glassy domain  of the AuNRs platforms. Platforms are subjected to a 0.5-W infrared laser illumination during 70 seconds.

本数据集所涉系统由两块硼硅酸盐玻璃构成，以空气作为周边介质，通过透明胶黏合为一体，用作热换能器（thermal transducer）。较小玻璃片的上下表面均分布有金纳米棒（gold nanorods）。选用玻璃作为基材，得益于其高透光性，可助力系统内部产生热量。在玻璃区域（4）的顶部，即金纳米棒所在位置，有平行激光束入射。由于光束间距较大，部分光线可穿透上层玻璃，抵达下方的第二层金表面。本数据集的结果为金纳米棒（AuNRs）载体平台在其玻璃区域上方5μm与下方5μm处的最高温度随时间的响应。该载体平台在70秒的时长内，承受0.5瓦的红外激光辐照。