文献综述-精准测温热像仪助力前沿科学研究
巨哥科技长期为前沿科学研究提供光电仪器,如科学级红外热像仪、超高分辨热像仪、AI智能热像仪等,为数百篇学术论文提供精确的温度场分析手段,研究结果发表于Nature, Cell, JACS, 及各专业领域期刊。本期汇集的论文覆盖化学和生命科学、微纳芯片、功能材料、复合材料、纳米材料、燃烧、生物健康等领域。
1、 Electrothermally controlled origami fabricated by 4D printing of continuous fiber-reinforced composites,2024年2月发表于Nature Communications
该研究发明一种精确控制电热折纸的制造设计驱动方法,利用连续纤维增强复合材料的4D打印,具有优异的机械性能和可控性。研究使用巨哥科技的红外热像仪测量变形过程中纯SMP或CCF-SMP铰链的表面温度:The surface temperature of the pure-SMP or CCF-SMP hinge during morphing was measured by a thermal imager (MAG32, Magnity Technologies, China).
2、Minimalist Design for Solar Energy Conversion: Revamping the π‑Grid of an Organic Framework into Open-Shell Superabsorbers,2023年3月发表于Journal of the American Chemical Society
该研究将有机框架的π网格改造成开壳超级吸收器,开发高效的有机框架固体光热材料,提高太阳能转化效率。研究使用巨哥科技的红外热像仪观测样品材料在激光照射后的温度变化:The temperature response of the samples was measured with an IR thermal camera (MAG14, Shanghai Magnity Technologies Co. Ltd., China).
3、Hierarchical rigid porous composites towards impact resistance and fire safety,2024年12月发表于Composites Part B
该研究以发泡和刷涂法制备碳纤维布和涂层作为表层,硬质聚氨酯泡沫(RPUF)作为中间层。该分层复合材料可以有效防止冲击损伤,并实现优异的阻燃性能。研究使用巨哥科技的科学级红外热像仪对RPUF复合材料进行耐热分析:Thermal-resistant analyses were conducted on MAG-F3/6 infrared thermal imager (Magnity technologies, Shanghai, China) with the 50cm height from the RPUF composites placed on a heating platform at 80℃.
4、Innovative strategy for the facile construction of active multifunctional coating on inert thermal insulation surface,2024年7月发表于Colloids and Surfaces A
该研究通过高效的氢键组装策略,使用两步低温等离子体表面处理在惰性隔热材料表面构建多功能复合涂层。所得复合涂层对惰性隔热基材表现出优异的粘附性,并具有超亲水性、良好的摩擦性性能、更好的绝热性能和抗机械磨损性,以及在简单的水作用下具有出色的自清洁功能。研究使用巨哥科技的红外热像仪分析样品的绝热性能:An infrared camera (IR camera, Magnity Technologies) was used to analyze the adiabatic performance of the samples.
5、Three-dimensional continuous network graphite nanosheets-based carbon foam supported stearic acid as effective shape-stabilized phase change material,2023年12月发表于Journal of Energy Storage
该研究通过真空碳化纳米Al2O3/环氧复合材料,开发了一种三维连续网络石墨纳米片基碳泡沫(CF),并将其用作载体以实现形状稳定的硬脂酸(SA)/CF复合相变材料。研究使用巨哥科技的红外热像仪观测SA和SA/CF-1700在相同热源下的传热效率差异:Heat distribution was from infrared thermal imager of Magnity Technologies Co., Ltd.
6、Vanadium dioxide/aluminum composites for adaptive infrared stealth,2024年4月发表于Ceramics International
该研究提出了一种具有智能红外隐身功能的VO2/Al复合材料,能够自发调整其发射率以匹配周围环境。研究使用巨哥科技的红外热像仪观测纯VO2和VO2/Al复合材料辐射温度随实际温度的变化:The thermal images at different temperatures were taken by an infrared thermal imager working in the 8–14μm region (Magnity Technologies).
7、Accurate quantification of DNA using on-site PCR (osPCR) by characterizing DNA amplification at single-molecule resolution,2023年5月发表于Nucleic Acids Research
通过在硅基微流控芯片中进行PCR,结合了qPCR和dPCR的优势,可以测量同一反应中模板的ct值和浓度,并且能够识别每个模板分子,从而在定量过程中去除非特异性扩增,大大提高了定量精度。研究使用巨哥科技的红外热像仪观测加热过程中4通道芯片的红外图像:IR imaging is performed using MAG32 Infrared imager (Magnity Technologies, Shanghai, China).
8、Effects of Ammonium Polyphosphate and Organic Modified Montmorillonite on Flame Retardancy of Polyethylene Glycol/Wood-Flour-Based Phase Change Composites,2023年4月发表于Molecules
该研究将聚磷酸铵(APP)、有机改性蒙脱石(OMMT)和WF以特定比例掺入PEG中,制备了一系列PEG/WF基复合材料,所制备的复合材料具有良好的热可靠性和化学稳定性。研究使用巨哥科技的科学级红外热像仪观测所制备材料的光热转换性能和温度调节性能:Both the light-thermal conversion performance and the temperature-regulated per formance of the prepared materials were evaluated via simulated solar irradiation using a MAG-F6-type infrared thermography camera (MAGNITY TECHNOLOGIES Co., Ltd., Shanghai, China).
9、Heat flux and flame spread rate of discrete PMMA in concave building facade with window intervals,2023年10月发表于Journal of Thermal Analysis and Calorimetry
该研究进行了PMMA在具有窗口间隔的凹形通道影响下的热通量和火焰传播速度实验,建立了由窗口间隔引起的离散火焰传播模型,并提出了离散固体燃料的跳跃点火模型。研究使用巨哥科技的红外热像仪观测PMMA表面的热量分布:An infrared camera (MAGNITY TECHNOLOGIES, MAG32) with a 50fps, 25–1000°C temperature measurement range, placed in front of the experimental setup, was used to record the pattern of change of pyrolysis front with time.
10、A highly degradable Mg-Al-Ca alloy with superior anti-tumor efficacy,2023年7月发表于Journal of Magnesium and Alloys
该研究设计了一种Mg-Al-Ca(AX)合金,其降解速度非常快。研究显示,植入的AX合金棒可以在交变磁场下加热,以抑制大型肿瘤。研究使用巨哥科技的红外热像仪监测燃料棒周围的瞬时温度:The mice were placed at the center of the heating coil for 5 min to allow the implanted rods to be heated. The instantaneous temperature around the rods were monitored using an infrared thermal camera (MAG42, Shanghai Magnity Technologies Co. Ltd.).
11、NIR-II photothermal therapy mediated by polymer-based nanoparticles to enhance checkpoint inhibitor immunotherapy for inhibiting lymph node metastasis in oral squamous cell carcinoma, 2024年6月发表于Nano Today
该研究介绍了一种利用由具有强电子供体-受体结构的新型聚合物合成的纳米粒子进行近红外II(NIR-II)光热治疗(PTT)的方法,这些纳米粒子表现出的光热转换、稳定性和生物相容性,使其成为深部肿瘤消融的理想选择,同时具有最小的脱靶效应。研究使用巨哥科技的超高分辨率红外热像仪观测不同浓度的溶液在激光照射下温度的变化情况:The photothermal property of PNPs was performed by using a MAG91 infrared thermal imaging camera from Magnity Technologies.
12、Simulation investigation on heating characteristics of catalysts under microwave irradiation for decomposition of waste plastic,2024年8月发表于Journal of the Energy Institute
该研究探索了颗粒尺寸、颗粒排列方向和颗粒形状对颗粒微波加热行为的影响,并使用红外温度数据对模型进行了实验验证和分析。研究使用巨哥科技的超高分辨率红外热像仪观测在600W下加热的接触颗粒的红外温度图像:The temperature images of the sample surface were captured in realtime by a thermal infrared camera (Magnity technologies MAG91) with a temperature range of 0–3000℃ and a measurement frequency of 30 Hz.
13、Sustainable microwave-driven CO2 gasification of plastic waste for high-yield H2 and CO production,2024年1月发表于Applied Catalysis B: Environment and Energy
该研究提出一种集成微波驱动系统,通过二氧化碳将塑料废物转化为H2和CO,验证塑料废物回收制氢的效率和可持续性。研究使用巨哥科技的超高分辨率红外热像仪MAG91观测反应过程中样品的温度变化情况:the dynamic feature of mixed samples under irradiation was captured by a thermal infrared camera (Magnity technologies MAG91)
14、Flame spread over cables in a utility tunnel: Effect of longitudinal wind and inclination angle,2022年11月发表于Tunnelling and Underground Space Technology
该研究分析电缆倾角和纵向风对隧道内电缆火焰传播行为的影响,并建立了一个基于传热分析的模型来预测不同电缆倾角条件下的火焰传播速率。研究使用巨哥科技的红外热像仪观测隧道内温度分布情况:An infrared camera (MAGNITY TECHNOLOGIES, MAG32) with 50 fps, 25–1000℃ temperature measurement range, immediately inside the observation window of the tunnel, was used to record the pattern of change of pyrolysis front with time.
15、Instance segmentation of pigs in infrared images based on INPC model,2024年8月发表于Infrared Physics and Technology
该研究设计了红外级联分割(INPC)模型,在集约化养殖环境中,对猪的健康进行长期监测,用于预防和控制疾病传播、优化饲养和管理实践。研究使用巨哥科技的AI智能红外热像仪同时采集红外和可见光图像:The data collection device used was the MAG64AI Intelligent Thermal Imager by MAGNITY TECHNOLOGIES. This device supports the simultaneous acquisition of both infrared and visible images.
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