Experimental Studies on Thermal and Electrical Properties of Platinum Nanofilms 被引量：5

Experimental Studies on Thermal and Electrical Properties of Platinum Nanofilms

下载PDF

导出

摘要 We experimentally studied the in-plane thermal and electrical properties of a suspended platinum nanofilm in thickness of 15 nm. The measured results show that the in-plane thermal conductivity, the electrical conductivity and the resistance-temperature coefficient of the studied nanofilm are much less than those of the bulk material, while the Lorenz number is greater than the bulk value. Comparing with the results reported previously for the platinum nanofilm in thickness of 28 nm, we further find that the in-plane thermal conductivity, the electrical conductivity and the resistance-temperature coefficient decrease with the decreasing thickness of the nanotilm, while the Lorenz number increases with the decreasing thickness of the nanofilm. These results indicate that strong size effects exist on the in-plane thermal and electrical properties of platinum nanofilms. We experimentally studied the in-plane thermal and electrical properties of a suspended platinum nanofilm in thickness of 15 nm. The measured results show that the in-plane thermal conductivity, the electrical conductivity and the resistance-temperature coefficient of the studied nanofilm are much less than those of the bulk material, while the Lorenz number is greater than the bulk value. Comparing with the results reported previously for the platinum nanofilm in thickness of 28 nm, we further find that the in-plane thermal conductivity, the electrical conductivity and the resistance-temperature coefficient decrease with the decreasing thickness of the nanotilm, while the Lorenz number increases with the decreasing thickness of the nanofilm. These results indicate that strong size effects exist on the in-plane thermal and electrical properties of platinum nanofilms.

作者张兴张清光曹炳阳 FUJII Motoo TAKAHASHI Koji IKUTA Tatsuya

机构地区 Key Laboratory for Thermal Science and Power Engineering of Ministry of Education Institute for Materials Chemistry and Engineering Graduate School of Engineering

出处《Chinese Physics Letters》 SCIE CAS CSCD 2006年第4期936-938,共3页 中国物理快报（英文版）

关键词 TRANSPORT CONDUCTIVITY SUPERLATTICES PHONON TRANSPORT CONDUCTIVITY SUPERLATTICES PHONON

分类号 O484 [理学—固体物理]

引文网络
相关文献

参考文献10

1Cahill D G, Ford W K, Goodson K E et al 2003 J. Appl.Phys. 93 793.
2Chen G 1998 Phys. Rev, B 57 14958.
3Chen G and Zeng T F 2001 Microscale Thermophys. Engin. 5 71.
4Feng X L, Li Z X, Liang X G and Guo Z Y 2000 Chin. Sci.Bull, 45 2113.
5Feng X L, Li Z X and Guo Z Y 2001 Chin. Phys, Lett, 18 416.
6Linag X G and Shi B 2000 Mater, Sci. Engin. A 292 198.
7Cahill D G, Goodson K and Majumdar A 2002 J. Heat Transfer 124 223.
8Zhang X, Xie H Q, Fujii M et al 2005 Appl, Phys, Lett. 86 171912.
9Tien C L, Majumdar A and Gerner F M 1997 Microscale Energy Transport (Washington: Taylor & Francis) p 77.
10Zhang X, Fujii M and Ikuta T 2005 Proceeding of 26th Japan Symposium on Thermophysical Properties p 349.

同被引文献11

1田丽娜,黄志明,包永忠,单国荣,翁志学.甲基丙烯酸甲酯本体聚合体系导热系数的研究[J].化学反应工程与工艺,2006,22(4):339-343. 被引量：4
2高生强,杨士勇.高性能聚酰亚胺材料及其在电工电子工业中的应用[J].绝缘材料通讯,1999(1):11-18. 被引量：24
3冯晓利,李志信,梁新刚,过增元.纳米薄膜导热系数的分子动力学模拟[J].科学通报,2000,45(19):2113-2117. 被引量：11
4李秦宜,楢崎将弘,高桥厚史,生田竜也,西山贵史,张兴.Temperature-dependent specific heat of suspended platinum nanofllms at 80-380 K[J].Chinese Physics B,2016,25(11):340-345. 被引量：1
5Linli Zhu,Haonan Luo.On the role of piezoelectricity in phonon properties and thermal conductivity of GaN nanofilms[J].Theoretical & Applied Mechanics Letters,2016,6(6):277-281. 被引量：3
6Weigang Ma,Yingjun Liu,Shen Yan,Tingting Miao,Shaoyi Shi,Mincheng Yang,Xing Zhang,Chao Gao.Systematic characterization of transport and thermoelectric properties of a macroscopic graphene fiber[J].Nano Research,2016,9(11):3536-3546. 被引量：6
7张兴,施徐国,马维刚.微纳米线材多物性参数综合表征系统的研发[J].中国科学：技术科学,2018,48(4):403-414. 被引量：4
8杨树森,侯阳,朱林利.Effects of surface charges on phonon properties and thermal conductivity in GaN nanofilms[J].Chinese Physics B,2019,28(8):270-275. 被引量：2
9HU YuDong,FAN AoRan,WANG HaiDong,MA WeiGang,ZHANG Xing.Dual-wavelength flash Raman mapping method for measuring thermal diffusivity of the suspended nanowire[J].Science China(Technological Sciences),2020,63(5):748-754. 被引量：2
10樊傲然,马维刚,王海东,张兴.双波长闪光拉曼热扩散率测量系统研发及应用[J].清华大学学报（自然科学版）,2021,61(12):1379-1388. 被引量：1

引证文献5

1曹炳阳,张清光,张兴,Takahashi Koji,Ikuta Tatsuya,乔文明,Fujii Motoo.金纳米薄膜面向导热系数的实验研究[J].自然科学进展,2006,16(11):1506-1510. 被引量：1
2刘锦辉,王海东,马维刚,张兴,过增元.超低温下金纳米薄膜导电和导热性质的实验研究[J].工程热物理学报,2012,33(11):1944-1946. 被引量：1
3HU YuDong,FAN AoRan,WANG HaiDong,MA WeiGang,ZHANG Xing.Dual-wavelength flash Raman mapping method for measuring thermal diffusivity of the suspended nanowire[J].Science China(Technological Sciences),2020,63(5):748-754. 被引量：2
4吴遵红,徐义,谭凯,李昌胜,王愿兵,蔡自彪,李小平,杨林,张维.3ω法测试聚酰亚胺膜热导率[J].工业加热,2020,49(5):51-54. 被引量：2
5樊傲然,马维刚,王海东,张兴.纳米材料固-固界面热输运机理研究进展与展望[J].工程热物理学报,2022,43(7):1711-1735. 被引量：1

二级引证文献7

1张军营,冒小峰.橡胶基导热复合材料中填充粉体粒径对导热性能的影响[J].化工新型材料,2009,37(10):43-45. 被引量：6
2夏胜全,吕学超,王晓波,何建军,王巍,窦政平.飞秒激光测量微纳材料热物性参量研究进展[J].激光技术,2016,40(4):506-511.
3樊傲然,马维刚,王海东,张兴.双波长闪光拉曼热扩散率测量系统研发及应用[J].清华大学学报（自然科学版）,2021,61(12):1379-1388. 被引量：1
4樊傲然,马维刚,王海东,张兴.纳米材料固-固界面热输运机理研究进展与展望[J].工程热物理学报,2022,43(7):1711-1735. 被引量：1
5王瑾玉,张永海,魏进家.功率器件热界面材料研究进展[J].工程热物理学报,2022,43(10):2699-2710. 被引量：3
6李灏,翟玉卫,刘岩,赵丽,丁晨,吴爱华.3ω测试方法中电极宽度对热辐射影响[J].上海计量测试,2022,49(4):2-4.
7杜明,戴新荣,袁少伟.纳米科技在农村饮水安全工程中的应用潜力分析[J].江淮水利科技,2023(5):11-15. 被引量：1

1李秦宜,楢崎将弘,高桥厚史,生田竜也,西山贵史,张兴.Temperature-dependent specific heat of suspended platinum nanofllms at 80-380 K[J].Chinese Physics B,2016,25(11):340-345. 被引量：1
2CHEN Guiru,XU Cailu,MAO Zongqiang,LI Yubao,ZHU Jie,CI Lijie,WEI Bingqing,LIANG Ji,WU Dehai.Deposition of the platinum crystals on the carbon nanotubes[J].Chinese Science Bulletin,2000,45(2):134-137. 被引量：2
3CAO Bingyang,ZHANG Qingguang,ZHANG Xing,TAKAHASHI Koji,IKUTA Tatsuya,QIAO Wenming,FUJII Motoo.Experimental study on the in-plane thermal conductivity of Au nanofilms[J].Progress in Natural Science:Materials International,2007,17(2):212-216.
4冀国俊,史志铭.AFM and XPS Study of Glass Surface Coated with Titania Nanofilms by Sol-Gel Method[J].Chinese Physics Letters,2010,27(9):179-182. 被引量：6
5周波,修鹏,王春雷,方海平.Peptide friction in water nanofilm on mica surface[J].Chinese Physics B,2012,21(2):431-436.
6Linli Zhu,Haonan Luo.On the role of piezoelectricity in phonon properties and thermal conductivity of GaN nanofilms[J].Theoretical & Applied Mechanics Letters,2016,6(6):277-281. 被引量：3
7刘桂雄,蒲尧萍,徐晨.磁流体中Helmholtz和Kelvin力的界定[J].物理学报,2008,57(4):2500-2503. 被引量：5
8李文胜,张琴,黄海铭,付艳华,是度芳.含单负材料光子晶体隧穿模的偏振特性[J].红外与激光工程,2012,41(8):2033-2037. 被引量：7
9朱尧辰.数学科学概观第2卷，纯粹数学[J].国外科技新书评介,2010(7):3-4.
10陈振兴,王零森,黄伯云.Growth of brass nanofilms sputtered on organic substrate[J].中国有色金属学会会刊：英文版,2005,15(3):661-665. 被引量：1

Chinese Physics Letters

2006年第4期

浏览历史

内容加载中请稍等...

Experimental Studies on Thermal and Electrical Properties of Platinum Nanofilms 被引量：5

参考文献10

同被引文献11

引证文献5

二级引证文献7

相关作者

相关机构

相关主题

浏览历史