文獻綜述-精準測溫熱像儀助力前沿科學研究
巨哥科技長期為前沿科學研究提供光電儀器,如科學級紅外熱像儀、超高分辨熱像儀、AI智能熱像儀等,為數(shù)百篇學術(shù)論文提供精確的溫度場分析手段,研究結(jié)果發(fā)表于Nature, Cell, JACS, 及各專業(yè)領(lǐng)域期刊。本期匯集的論文覆蓋化學和生命科學、微納芯片、功能材料、復合材料、納米材料、燃燒、生物健康等領(lǐng)域。
1、 Electrothermally controlled origami fabricated by 4D printing of continuous fiber-reinforced composites,2024年2月發(fā)表于Nature Communications
該研究發(fā)明一種精確控制電熱折紙的制造設(shè)計驅(qū)動方法,利用連續(xù)纖維增強復合材料的4D打印,具有優(yōu)異的機械性能和可控性。研究使用巨哥科技的紅外熱像儀測量變形過程中純SMP或CCF-SMP鉸鏈的表面溫度: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月發(fā)表于Journal of the American Chemical Society
該研究將有機框架的π網(wǎng)格改造成開殼超級吸收器,開發(fā)高效的有機框架固體光熱材料,提高太陽能轉(zhuǎn)化效率。研究使用巨哥科技的紅外熱像儀觀測樣品材料在激光照射后的溫度變化: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月發(fā)表于Composites Part B
該研究以發(fā)泡和刷涂法制備碳纖維布和涂層作為表層,硬質(zhì)聚氨酯泡沫(RPUF)作為中間層。該分層復合材料可以有效防止沖擊損傷,并實現(xiàn)優(yōu)異的阻燃性能。研究使用巨哥科技的科學級紅外熱像儀對RPUF復合材料進行耐熱分析: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月發(fā)表于Colloids and Surfaces A
該研究通過高效的氫鍵組裝策略,使用兩步低溫等離子體表面處理在惰性隔熱材料表面構(gòu)建多功能復合涂層。所得復合涂層對惰性隔熱基材表現(xiàn)出優(yōu)異的粘附性,并具有超親水性、良好的摩擦性性能、更好的絕熱性能和抗機械磨損性,以及在簡單的水作用下具有出色的自清潔功能。研究使用巨哥科技的紅外熱像儀分析樣品的絕熱性能: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月發(fā)表于Journal of Energy Storage
該研究通過真空碳化納米Al2O3/環(huán)氧復合材料,開發(fā)了一種三維連續(xù)網(wǎng)絡(luò)石墨納米片基碳泡沫(CF),并將其用作載體以實現(xiàn)形狀穩(wěn)定的硬脂酸(SA)/CF復合相變材料。研究使用巨哥科技的紅外熱像儀觀測SA和SA/CF-1700在相同熱源下的傳熱效率差異:Heat distribution was from infrared thermal imager of Magnity Technologies Co., Ltd.
6、Vanadium dioxide/aluminum composites for adaptive infrared stealth,2024年4月發(fā)表于Ceramics International
該研究提出了一種具有智能紅外隱身功能的VO2/Al復合材料,能夠自發(fā)調(diào)整其發(fā)射率以匹配周圍環(huán)境。研究使用巨哥科技的紅外熱像儀觀測純VO2和VO2/Al復合材料輻射溫度隨實際溫度的變化: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月發(fā)表于Nucleic Acids Research
通過在硅基微流控芯片中進行PCR,結(jié)合了qPCR和dPCR的優(yōu)勢,可以測量同一反應(yīng)中模板的ct值和濃度,并且能夠識別每個模板分子,從而在定量過程中去除非特異性擴增,大大提高了定量精度。研究使用巨哥科技的紅外熱像儀觀測加熱過程中4通道芯片的紅外圖像: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月發(fā)表于Molecules
該研究將聚磷酸銨(APP)、有機改性蒙脫石(OMMT)和WF以特定比例摻入PEG中,制備了一系列PEG/WF基復合材料,所制備的復合材料具有良好的熱可靠性和化學穩(wěn)定性。研究使用巨哥科技的科學級紅外熱像儀觀測所制備材料的光熱轉(zhuǎn)換性能和溫度調(diào)節(jié)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月發(fā)表于Journal of Thermal Analysis and Calorimetry
該研究進行了PMMA在具有窗口間隔的凹形通道影響下的熱通量和火焰?zhèn)鞑ニ俣葘嶒灒⒘擞纱翱陂g隔引起的離散火焰?zhèn)鞑ツP?,并提出了離散固體燃料的跳躍點火模型。研究使用巨哥科技的紅外熱像儀觀測PMMA表面的熱量分布: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月發(fā)表于Journal of Magnesium and Alloys
該研究設(shè)計了一種Mg-Al-Ca(AX)合金,其降解速度非???。研究顯示,植入的AX合金棒可以在交變磁場下加熱,以抑制大型腫瘤。研究使用巨哥科技的紅外熱像儀監(jiān)測燃料棒周圍的瞬時溫度: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月發(fā)表于Nano Today
該研究介紹了一種利用由具有強電子供體-受體結(jié)構(gòu)的新型聚合物合成的納米粒子進行近紅外II(NIR-II)光熱治療(PTT)的方法,這些納米粒子表現(xiàn)出的光熱轉(zhuǎn)換、穩(wěn)定性和生物相容性,使其成為深部腫瘤消融的理想選擇,同時具有最小的脫靶效應(yīng)。研究使用巨哥科技的超高分辨率紅外熱像儀觀測不同濃度的溶液在激光照射下溫度的變化情況: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月發(fā)表于Journal of the Energy Institute
該研究探索了顆粒尺寸、顆粒排列方向和顆粒形狀對顆粒微波加熱行為的影響,并使用紅外溫度數(shù)據(jù)對模型進行了實驗驗證和分析。研究使用巨哥科技的超高分辨率紅外熱像儀觀測在600W下加熱的接觸顆粒的紅外溫度圖像: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月發(fā)表于Applied Catalysis B: Environment and Energy
該研究提出一種集成微波驅(qū)動系統(tǒng),通過二氧化碳將塑料廢物轉(zhuǎn)化為H2和CO,驗證塑料廢物回收制氫的效率和可持續(xù)性。研究使用巨哥科技的超高分辨率紅外熱像儀MAG91觀測反應(yīng)過程中樣品的溫度變化情況: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月發(fā)表于Tunnelling and Underground Space Technology
該研究分析電纜傾角和縱向風對隧道內(nèi)電纜火焰?zhèn)鞑バ袨榈挠绊懀⒔⒘艘粋€基于傳熱分析的模型來預測不同電纜傾角條件下的火焰?zhèn)鞑ニ俾?。研究使用巨哥科技的紅外熱像儀觀測隧道內(nèi)溫度分布情況: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月發(fā)表于Infrared Physics and Technology
該研究設(shè)計了紅外級聯(lián)分割(INPC)模型,在集約化養(yǎng)殖環(huán)境中,對豬的健康進行長期監(jiān)測,用于預防和控制疾病傳播、優(yōu)化飼養(yǎng)和管理實踐。研究使用巨哥科技的AI智能紅外熱像儀同時采集紅外和可見光圖像: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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