A solar simulator (Beijing Zhongjiao Jinyuan Technology Co., Ltd., Beijing, China) was used to simulate a light source (~1 kW m−2). The MB solution (5 mg L−1) in the beaker was used as the original solution, and the sample floated above the liquid. An electronic balance (ME204, METTLER TOLEDO, Columbus, OH, USA) was used to monitor the weight change of the whole device in real-time, and an IR camera (T630sc, FLIR, Wilsonville, OR, USA) and thermocouple (HH506RA, Omega, New York, NY, USA) were used to record bulk temperatures. An ambient temperature of 25 °C and ambient humidity of 60% were recorded.
T630sc
Manufactured by Teledyne
Sourced in United States
The T630sc is a scientific instrument designed for laboratory use. It serves as a core function of temperature measurement and control. The device specifications and technical details are available upon request.
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Lab products found in correlation
3 protocols using t630sc
1
Solar-driven water evaporation analysis
2
Fabrication of Transparent Mesh Heater
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The transparent heater was fabricated with a mesh-type pattern with 800 μm spacing on PET using optimal fabrication conditions (22.5 mW of laser power, 1.2 mm/s of scanning speed). The silver paste was applied to both ends of the meshed pattern, and the copper tape was attached to the silver paste. The experiment was conducted after the silver paste was sufficiently dried. The DC voltage was supplied to the heater, and temperature rise by the generated heat was measured using an infrared (IR) camera (T630sc, FLIR, Wilsonville, OR, USA).
3
Evaluation of Polymeric Micro-Patterned Heaters
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The structure of the fabricated heater was investigated using an optical microscope (OM; BX60M, Olympus). A computer-interfaced motorized stage (JSV-H100, JISC) was used to apply tensile strain to the device while recording the corresponding force and electrical resistance (R) using a push–pull force gauge (HF-10, JISC) and digital multimeter (34465A, Keysight Technologies), respectively. The electrothermal properties of the PMP heaters were evaluated and analyzed using a thermal imaging camera (T630sc, FLIR). A direct current power supply (K1205, Vupower) was used to apply the input voltage to the device. A four-point probe (CMT-SR2000N, Advanced Instrument Technology) was used to measure the sheet resistance (Rs) of the Al foil laminated with a PET sheet.
Blood perfusion at the wrist of a volunteer, in the initial and heated states, was measured (15 × 15 mm2) using a laser Doppler imaging (LDI) system (PeriScan PIM3, Perimed AB). The LDI system basically evaluates the Doppler shift related to the velocity of the blood cells, which occurs when a transmitted laser beam reacts with moving blood cells. The measurement in the heated state was performed by heating the wrist for 10 min and scanning it using a wearable PMP heating band at an applied voltage of 2.5 V.
Blood perfusion at the wrist of a volunteer, in the initial and heated states, was measured (15 × 15 mm2) using a laser Doppler imaging (LDI) system (PeriScan PIM3, Perimed AB). The LDI system basically evaluates the Doppler shift related to the velocity of the blood cells, which occurs when a transmitted laser beam reacts with moving blood cells. The measurement in the heated state was performed by heating the wrist for 10 min and scanning it using a wearable PMP heating band at an applied voltage of 2.5 V.
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