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當前位置:主頁 > 產(chǎn)品展示 > 專用實驗設備 > 光電測試系統(tǒng) > 時域熱反射測量系統(tǒng) (TDTR 測試系統(tǒng))

時域熱反射測量系統(tǒng) (TDTR 測試系統(tǒng))

簡要描述:我司新推出的時域熱反射測量系統(tǒng)可用于測量金屬薄膜、塊體或液體的熱導率、界面熱阻等多項熱物性參數(shù),薄膜測量厚度可達納米量級!在微納結構新材料的研發(fā)與分析等方面得以越來越廣泛的應用。 時域熱反射測量系統(tǒng) (TDTR 測試系統(tǒng))

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  • 更新時間:2021-09-10
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應用領域醫(yī)療衛(wèi)生,生物產(chǎn)業(yè),電子/電池厚度樣品測量nm級

時域熱反射測量系統(tǒng) (TDTR 測試系統(tǒng))飛秒激光時域熱反射測量技術,即Time-domain Thermoreflectance, TDTR 是一種基于飛秒超快激光抽運探測(pump-probe)技術的導熱測量技術。相比于其他導熱測量技術,目前TDTR技術因其可以測量納米薄膜熱導率和界面熱阻以及非接觸式測量特性而具有*優(yōu)勢。

 

我司新推出的時域熱反射測量系統(tǒng)可用于測量金屬薄膜、塊體或液體的熱導率、界面熱阻等多項熱物性參數(shù),薄膜測量厚度可達納米量級!在微納結構新材料的研發(fā)與分析等方面得以越來越廣泛的應用。   

 

系統(tǒng)通過利用飛秒激光照射樣品表層金屬薄膜,令薄膜吸收能量并將其轉化為熱能, 從而傳導給樣品,并隨時間尺度逐漸向樣品傳遞。金屬薄膜表面溫度隨時間回落,從而影響到其反射率。屆時再通過測量另一束探測激光的反射強度曲線,通過后續(xù)一系列的解調(diào)分析,即可得到金屬薄膜溫度隨時間的變化,進而獲得被測樣品的導熱特性和相關熱物性參數(shù)等。

 

時域熱反射測量系統(tǒng) (TDTR 測試系統(tǒng))產(chǎn)品特點:

超快動態(tài)測量過程,nm級厚度樣品測量

各項異性熱導率測量

納米材料界面熱阻材料(石墨烯合金等界面熱阻測量)

高溫高壓外場測量(Gpa 高壓環(huán)境  1000℃ 外場環(huán)境兼容)

 

 

本系統(tǒng)采用了長行程線性位移臺,可以實現(xiàn)較高時間分辨率的熱響應測量;

雙波長激光分別進行泵浦和探測,降低了加熱和探測過程之間的干擾;

調(diào)制和鎖相的使用進一步保證了微小熱響應信號的捕捉和測量;

ccd顯微可視技術則能夠精確控制具有微觀結構樣品的測量。

 

關鍵核心技術:

高分辨率時域熱反射技術

雙波長抽運探測技術

調(diào)制鎖相放大技術

光路共享CCD顯微可視技術

高集成度分體式模塊化設計

高靈活度樣品位設計

 

可測材料:

塊體材料
薄膜材料

 

可測參數(shù):

熱導率

熱擴散率

吸熱系數(shù)

界面熱阻

 

應用:

材料分析

薄膜的熱物性參數(shù)測量

 

系統(tǒng)規(guī)格:

熱導率測量范圍 0.1~2,000 W·m-1·K-1

熱擴散率測量范圍0.05~1,000 mm2·s-1

可測薄膜厚度     >10 nm

吸熱系數(shù) 500~50,000 J·m-2·K-1·s-0.5

 

部分發(fā)表論文列表:

1.       Fangyuan Sun#, Teng Zhang#, Matthew M. Jobbins, Zhi Guo, Xueqiang Zhang, Zhongli Zheng, Dawei Tang, Sylwia Ptasinska, Tengfei Luo*, Molecular bridge enables anomalous enhancement in thermal transport across hard-soft material interfaces, Advanced Materials, 2014, 26(35): 6093-6099 (SCI影響因子25.809,JCR 1區(qū),封面文章,科學網(wǎng)、中科院網(wǎng)報道文章)

2.       Kun Zheng#, Fangyuan Sun#, Jie Zhu*, Yongmei Ma*, Xiaobo Li, Dawei Tang, Fosong Wang, Xiaojia Wang, Enhancing the thermal conductance of polymer and sapphire interface via self-assembled monolayer, ACS Nano, 2016, 10(8): 7792-7798 (SCI影響因子13.903,JCR 1區(qū),共同第一作者)

3.       Guo Chang, Fangyuan Sun*, Luhua Wang, Zhanxun Che, Xitao Wang, Jinguo Wang, Moon J. Kim, Hailong Zhang*, Regulated interfacial thermal conductance between cu and diamond by a TiC interlayer for thermal management applications, ACS Applied Materials & Interfaces, 2019, 11(29): 26507-26517 (SCI影響因子8.456,JCR 1區(qū))

4.       Jiaxin Lu#, Kunpeng Yuan#, Fangyuan Sun*, Kun Zheng*, Zhongyin Zhang, Jie Zhu, Xinwei Wang, Xiaoliang Zhang, Yafang Zhuang, Yongmei Ma*, Xinyu Cao, Jingnan Zhang, Dawei Tang, Self-assembled monolayer for polymer-semiconductor interface with improved interfacial thermal management, ACS Applied Materials & Interfaces, 2019, 10.1021/acsami.9b12006 (SCI影響因子8.456,JCR 1區(qū))

5.       Xinwei Wang#, Zhe Chen#, Fangyuan Sun*, Hang Zhang, Yuyan Jiang, Dawei Tang*, Analysis of simplified heat transfer models for thermal property determination of nano-film by TDTR method, Measurement Science and Technology, 2018(29): 035902 (SCI影響因子1.861,JCR 2區(qū))

6.       Fangyuan Sun#,*, Xinwei Wang#, Ming Yang, Zhe Chen, Hang Zhang*, Dawei Tang*, Simultaneous measurement of thermal conductivity and speci?c heat in a single TDTR experiment, International Journal of Thermophysics, 2018, 39(1): 5 (SCI影響因子0.853,JCR 4區(qū))

7.       孫方遠, 祝捷*, 唐大偉, 飛秒激光抽運探測方法測量液體熱導率, 科學通報, 2015, 60(14): 1320-1327 (中國工程熱物理學會傳熱傳質會議優(yōu)秀論文)

8.       張航#, 王新偉#, 張中印, 陳哲, 孫方遠*, 唐大偉*, 基于TDTR方法的碳化硅低溫導熱性能實驗研究, 工程熱物理學報, 2017, 38(7): 1415-1421 (EI索引)

9.       Xinwei Wang, Zhongyin Zhang, Fangyuan Sun*, Xue Xiong, Zhe Chen, Hang Zhang, Yongfu Liang, Yuyan Jiang, Dawei Tang*, The influence of related parameters to thermal conductivity determination via time-domain thermoreflectance method under high pressure, International Heat Transfer Conference 16, 2018, 24: 8881-8889

10.    Xinwei Wang, Meiling Zhou, Weidong Xu, Zhongyin Zhang, Fangyuan Sun*, Thermal conductivity measurements of Al2O3/water nanofluids using time-domain thermoreflectance method and hot wire method, International Heat Transfer Conference 16, 2018, 24: 8711-8720

11.    Kun Zheng, Fangyuan Sun, Xia Tian, Jie Zhu*, Yongmei Ma*, Dawei Tang, Fosong Wang, Tuning the interfacial thermal conductance between polystyrene and sapphire by controlling the interfacial adhesion, ACS Applied Materials & Interfaces, 2015, 7(42): 23644-23649 (SCI影響因子8.456,JCR 1區(qū))

12.    Teng Zhang, Ashley R. Gans-Forrest, Eungkyu Lee, Xueqiang Zhang, Chen Qu, Yunsong Pang, Fangyuan Sun, Tengfei Luo*, Role of hydrogen bonds in thermal transport across hard/soft material interfaces, ACS Applied Materials & Interfaces, 2016, 8(48): 33326-33334 (SCI影響因子8.456,JCR 1區(qū))

13.    Guo Chang, Fangyuan Sun, Jialiang Duan, Zifan Che, Xitao Wang, Jinguo Wang, Moon J Kim, Hailong Zhang*, Effect of Ti interlayer on interfacial thermal conductance between Cu and diamond, Acta Materialia, 2018, 160: 235-246 (SCI影響因子7.293,JCR 1區(qū))

14.    Zhi Guo, Doyun Lee, Yi Liu, Fangyuan Sun, Anna Sliwinski, Haifeng Gao, Peter C. Burns, Libai Huang, Tengfei Luo*, Tuning the thermal conductivity of solar cell polymers through side chain engineering, Physical Chemistry Chemical Physics, 2014, 16(17): 7764-7771 (SCI影響因子3.567,JCR 2區(qū))

15.    Zhi Guo, Amit Verma, Xufei Wu, Fangyuan Sun, Austin Hickman, Takekazu Masui, Akito Kuramata, Masataka Higashiwaki, Debdeep Jena, and Tengfei Luo*, Anisotropic thermal conductivity in single crystal β-gallium oxide, Applied Physics Letters, 2015, 106(11): 111909 (SCI影響因子3.521,JCR 1區(qū))

16.    Zhenbao Li, Yejie Cao, Wen Liu, Yiguang Wang*, Fangyuan Sun, Zhe Chen, Zhongyin Zhang, Enhanced irradiation resistance and thermal conductivity of SiC induced by the addition of carbon under Au2+ ion irradiation, Ceramics International, 2018, 44(7): 8521-8527 (SCI影響因子3.45,JCR 1區(qū))

17.    Xin Jia, Junjun Wei*, Yuechan Kong, Chengming Li, Jinlong Liu, Liangxian Chen, Fangyuan Sun, Xinwei Wang, The influence of dielectric layer on the thermal boundary resistance of GaN-on-diamond substrate, Surface and Interface Analysis, 2019, 51(7): 783-790 (SCI影響因子1.319,JCR 4區(qū))

18.    Lidan Zhu, Fangyuan Sun, Jie Zhu*, Dawei Tang*, Yuhua Li, Chaohong Guo, Nano-metal film thermal conductivity measurement by using the femtosecond laser pump and probe method, Chinese Physics Letters, 2012, 29(6): 066301 (SCI影響因子1.066,JCR 3區(qū))

19.    Ming Yang*, Fangyuan Sun, Ruining Wang, Hang Zhang*, Dawei Tang*, Strain modulation of electronic and heat transport properties of bilayer boronitrene, International Journal of Thermophysics, 2017, 38(10): 155 (SCI影響因子0.853,JCR 4區(qū))

20.    朱麗丹, 孫方遠, 祝捷*, 唐大偉*, 飛秒激光抽運探測熱反射法對金屬納米薄膜超快非平衡傳熱的研究, 物理學報, 2012, 61(13): 134402 (SCI影響因子0.644,JCR 4區(qū))

21.    Dong Yu, Xuegong Hu*, Chaohong Guo, Dawei Tang, Fangyuan Sun, Linghong Hu, Fei Gao, Tao Zhao, Experimental investigation on fluid flow in an inclined open rectangular microgrooves heat sink with micro-PIV, ASME 2013 Heat Transfer Summer Conference, 2013: V004T15A002 (SCI索引)

22.    Juan Wen*, Dawei Tang, Zhicheng Wang, Jing Zhang, Yanjun Li, Fangyuan Sun, Numerical simulation of flow and heat transfer of a direct air-cooled condenser cell in a power plant, ASME 2013 Heat Transfer Summer Conference, 2013: V001T03A035 (SCI索引)

23.    朱麗丹, 孫方遠, 祝捷, 唐大偉*, 飛秒激光抽運-探測法對金納米薄膜非平衡傳熱的研究, 中國激光, 2012, 39(5): 0507001 (EI索引)

24.    陳哲, 孫方遠, 唐大偉*, 鋁傳感層蒸鍍速率對飛秒激光抽運探測熱反射方法測量熱導率影響的研究, 熱科學與技術, 2018, 17(4): 290-295

25.    石宏開, 王新偉, 鄭利兵*, 孫方遠, 劉珠明, 基于熱反射法的微納結構熱掃描技術研究, 熱科學與技術, 2019, 18(2): 94-99

26.    Zhongyin Zhang, Xinwei Wang, Kunpeng Yuan, Fangyuan Sun, Dawei Tang*, Thermal conductance measurement of Al-SiC interface at 4-300K using time-domain thermoreflectance technique, International Heat Transfer Conference 16, 2018, 24: 8826-8833

27.    Kun Zheng, Jiaxin Lu, Yafang Zhuang, Fangyuan Sun, Jie Zhu, Yongmei Ma, Dawei Tang, Tuning the thermal conductance of polymer and sapphire interface, International Heat Transfer Conference 16, 2018, 8: 2599-2605

 

 

 

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