共查询到20条相似文献,搜索用时 15 毫秒
1.
2.
3.
4.
电化学制备Bi2Te3纳米线用于微型温差发电器 总被引:1,自引:0,他引:1
借助于电化学沉积的方法,在氧化铝纳米孔内生长Bi2Te3材料,从而形成温差电纳米线阵列.利用SEM,XRD and TEM分析手段对制备的纳米线形貌和结构进行了分析,测量了纳米线的组成和温差电性能.p型和n型Bi2Te3纳米线材料的Seebeck系数经过测量分别为260μV/K和-188μV/K(307K),比同类的块状温差电材料性能高.同时研究了沉积电位对氧化铝模板中纳米孔的填充率的影响,并对纳米线阵列的电阻进行了测量.尝试了利用n型和P型Bi2Te3纳米线阵列制备一种新型的微型温差发电器. 相似文献
5.
利用人体体温发电的热电器件因其结构简单、可靠性高,有望为可穿戴电子产品等低功耗设备提供免维护、长期稳定的能源。以高性能无机块体热电材料和低热导环氧树脂/玻璃微珠复合粘结剂作为原料,采用切割粘结法和磁控溅射/电化学镀铜技术,制备了热电臂高度不同的48对温差发电器件。由于该技术不需使用陶瓷覆铜板,在给定的器件厚度条件下,可提高热电臂高度。性能表征结果显示,在实际穿戴条件下,随热电臂高度的增加,器件的输出功率密度持续增加。在相当于一级风的空气对流条件下或正常行走状态下,热电臂高度为3.14mm的器件输出功率密度超过40μW/cm2。 相似文献
6.
Jing Zhou Jianghe Feng Hao Li Duo Liu Guojuan Qiu Feng Qiu Juan Li Zhong-Zhen Luo Zhigang Zou Rong Sun Ruiheng Liu 《Small (Weinheim an der Bergstrasse, Germany)》2023,19(24):2300654
The carrier concentration in n-type layered Bi2Te3-based thermoelectric (TE) material is significantly impacted by the donor-like effect, which would be further intensified by the nonbasal slip during grain refinement of crushing, milling, and deformation, inducing a big challenge to improve its TE performance and mechanical property simultaneously. In this work, high-energy refinement and hot-pressing are used to stabilize the carrier concentration due to the facilitated recovery of cation and anion vacancies. Based on this, combined with SbI3 doping and hot deformation, the optimized carrier concentration and high texture degree are simultaneously realized. As a result, a peak figure of merit (zT) of 1.14 at 323 K for Bi2Te2.7Se0.3 + 0.05 wt.% SbI3 sample with the high bending strength of 100 Mpa is obtained. Furthermore, a 31-couple thermoelectric cooling device consisted of n-type Bi2Te2.7Se0.3 + 0.05 wt.% SbI3 and commercial p-type Bi0.5Sb1.5Te3 legs is fabricated, which generates the large maximum temperature difference (ΔTmax) of 85 K at a hot-side temperature of 343 K. Thus, the discovery of recovery effect in high energy refinement and hot-pressing has significant implications for improving TE performance and mechanical strength of n-type Bi2Te3, thereby promoting its applications in harsh conditions. 相似文献
7.
通过射频磁控溅射,在溅射气体为Ar,气压为1Pa,溅射功率为120W时分别在聚氨酯和玻璃基底上沉积了不同厚度的Bi2Te3薄膜。Bi2Te3薄膜主要是以(221)晶面平行于基底进行外延生长,先在基底形成大量微小晶粒,合并长大成典型的纤维状组织结构。在此条件下薄膜生长速率为26nm/min,通过控制溅射时间可沉积几纳米到几微米不同厚度的薄膜。得到的p-型半导体Bi2Te3薄膜,其电阻率随薄膜厚度的增大而减小。 相似文献
8.
本文介绍了采用热塑形方法制备N型Bi2Te3温差电材料.并且给出了所获得样品的密度、抗弯强度、SEM以及温差电性能(包括电导率和塞贝克系数)的测试结果.实验结果表明,在最佳的热塑形工艺下制备的样品的功率因子与区熔材料相当,但其机械强度要明显优于区熔材料.热压塑形样品在垂直于塑形压力的方向上具有良好的取向,并且样品在此方向上的功率因子远远大于其在平行压力方向上的功率因子值. 相似文献
9.
研究了用低温湿化学法和水热法制备纳米级的Bi2Te3和sb挪e3颗粒,并通过透射电镜观察其微观形貌。Bi2Te3粉末的微观形貌为直径在30-50n之间的片状小颗粒,而sb2Te3颗粒的微观形貌为薄带状,直径约为70nm,长度则为从150-300nm不等,并对其晶体的形核和长大机理进行了讨论。认为,纳米小颗粒状的Bi2Te3晶体可能是通过“表面形核和侧向生长”形成的产物,而薄带状的sb2Te3晶体可能是在Te块解体形成的条带状碎屑基础上形成的。用放电等离子烧结法(spark plasma sintering)制备不同比例的Bi2Te3/Sb2Te3块状复合材料,测量并比较了其热电性能。通过改变Bi2Te3的量,可以提高复合材料的电性能。成分不同的层片间的散射,能更有效地降低块体材料的热导率。在500K的温度下,Bi2Te3和sb2Te3以摩尔比为1:1复合烧结的试样的热导率低达0.7W/(m·K)。进一步优化Bi2Te3和sb2Te3的复合比例,其热电性能可能会有进一步的提高。 相似文献
10.
在几种形状不同的柔性电路板上磁控溅射Bi_2Te_3薄膜,温差测试之后进行结构的优化设计。在给予一定温差条件下,测量优化设计后的柔性热电薄膜在退火前后的输出电压和电阻率,并提出了改进措施。研究表明:优化后的柔性热电薄膜相较之前有很大的改善;柔性热电薄膜输出的电压与提供的温差近似呈线性关系;在温差为200K时,输出电压为310mV,电阻率为0.792mΩ·cm;200℃/h真空退火后,输出电压增大到368mV,电阻率也同时增大,达到0.869mΩ·cm。 相似文献
11.
12.
13.
采用水热法合成Bi_2Te_3粉体,将炭黑(CB)与其掺杂制备不同比例的碲化铋/炭黑(Bi_2Te_3/CB)复合材料,研究复合材料的热电性能。同时采用TGA、SEM、XRD等分析方法表征Bi_2Te_3/CB复合材料的结构,探究微观结构与热电性能的关系。研究发现:室温下,CB的引入使Bi_2Te_3/CB复合材料的热导率大大降低(0.5957 W/(m·K)降到0.0888 W/(m·K));随着Bi_2Te_3含量的增加,复合材料的电导率、热导率均增大,Seebeck系数先增加后降低;当Bi_2Te_3含量为88.9%时,在558℃烧结10min所得的Bi_2Te_3/CB复合材料室温下热电优值ZT最大(ZT=0.21)。虽然ZT值未能达到应用价值,但是CB的添加为改善Bi_2Te_3材料的热电性能,尤其在降低材料的热导率方面,提供了新方法和新思路。 相似文献
14.
在GeTe-Bi2Te3赝二元系统中, (GeTe)n(Bi2Te3)m化合物往往具有较低的晶格热导率, 但其中很多组分的热电性能尚未得到系统研究。本研究通过熔融、淬火、退火结合放电等离子烧结工艺制备了一系列(GeTe)nBi2Te3(n=10, 11, 12, 13, 14)单相多晶样品, 并对其相组成和热电性能进行表征和研究。掺杂Bi2Te3可以显著增强点缺陷声子散射, 大幅度降低材料的晶格热导率, 在723 K时, (GeTe)13Bi2Te3样品的总热导率低至1.63 W?m -1?K -1。此外, 掺杂Bi2Te3和调控GeTe的相对含量, 提高了材料的载流子有效质量, 即使在较高的载流子浓度下, 样品依然保持较高的塞贝克系数和功率因子, 在723 K, (GeTe)13Bi2Te3样品获得最大的功率因子为2.88×10 -3 W?m -1?K -2, 最终(GeTe)13Bi2Te3样品在723 K获得的最大ZT值达到1.27, 较未掺杂的GeTe样品提高了16%。 相似文献
15.
16.
Yanyuan Zhao Maria de la Mata Richard L. J. Qiu Jun Zhang Xinglin Wen Cesar Magen Xuan P. A. Gao Jordi Arbiol Qihua Xiong 《Nano Research》2014,7(9):1243-1253
We report on a Te-seeded epitaxial growth of ultrathin Bi2Te3 nanoplates (down to three quintuple layers (QL)) with large planar sizes (up to tens of micrometers) through vapor transport. Optical contrast has been systematically investigated for the as-grown Bi2Te3 nanoplates on the SiO2/Si substrates, experimentally and computationally. The high and distinct optical contrast provides a fast and convenient method for the thickness determination of few-QL Bi2Te3 nanoplates. By aberration-corrected scanning transmission electron microscopy, a hexagonal crystalline structure has been identified for the Te seeds, which form naturally during the growth process and initiate an epitaxial growth of the rhombohedral- structured Bi2Te3 nanoplates. The epitaxial relationship between Te and Bi2T% is identified to be perfect along both in-plane and out-of-plane directions of the layered nanoplate. Similar growth mechanism might be expected for other bismuth chalcogenide layered materials. 相似文献
17.
18.
19.
20.
Sepideh Izadi Ahana Bhattacharya Sarah Salloum Jeong Woo Han Lauritz Schnatmann Ulrike Wolff Nicolas Perez Georg Bendt Inga Ennen Andreas Hütten Kornelius Nielsch Stephan Schulz Martin Mittendorff Gabi Schierning 《Small (Weinheim an der Bergstrasse, Germany)》2023,19(11):2204850
Three-dimensional topological insulators (3D TI) exhibit conventional parabolic bulk bands and protected Dirac surface states. A thorough investigation of the different transport channels provided by the bulk and surface carriers using macroscopic samples may provide a path toward accessing superior surface transport properties. Bi2Te3 materials make promising 3D TI models; however, due to their complicated defect chemistry, these materials have a high number of charge carriers in the bulk that dominate the transport, even as nanograined structures. To partially control the bulk charge carrier density, herein the synthesis of Te-enriched Bi2Te3 nanoparticles is reported. The resulting nanoparticles are compacted into nanograined pellets of varying porosity to tailor the surface-to-volume ratio, thereby emphasizing the surface transport channels. The nanograined pellets are characterized by a combination of resistivity, Hall- and magneto-conductance measurements together with (THz) time-domain reflectivity measurements. Using the Hikami-Larkin-Nagaoka (HLN) model, a characteristic coherence length of ≈200 nm is reported that is considerably larger than the diameter of the nanograins. The different contributions from the bulk and surface carriers are disentangled by THz spectroscopy, thus emphasizing the dominant role of the surface carriers. The results strongly suggest that the surface transport carriers have overcome the hindrance imposed by nanoparticle boundaries. 相似文献