Thermoelectric properties of the β-cu2se films with ag doping by magnetron sputtering

被引：0

作者：

Li G.-P. ^{[1
]}

Song G.-H. ^{[1
]}

Wang N. ^{[1
]}

Li X.-Y. ^{[1
]}

Hu F. ^{[1
]}

机构：

[1] School of Materials Science and Engineering, Shenyang University of Technology, Shenyang

来源：

Surface Technology | 2021年 / 50卷 / 08期

基金：

中国国家自然科学基金;

关键词：

Ag doping; Cu2Se films; Magnetron sputtering; Resistivity; Seebeck coefficient; Thermoelectric materials;

D O I：

10.16490/j.cnki.issn.1001-3660.2021.08.020

中图分类号：

学科分类号：

摘要：

The work aims to study the influence of Ag doping on the phase composition and thermoelectric properties of Cu2Se thin films. Ag-doped Cu2Se thermoelectric thin films were deposited by high vacuum magnetron sputtering using a powder sintered Cu2Se alloy target. The influence of Ag doping on the phase composition and thermoelectric properties of the Cu2Se thin films were studied in this paper. The phase composition, surface morphologies, fracture cross-sections, micro-area element contents and element distribution of the thin films were analyzed by X-ray diffraction (XRD), scanning electron microscopy (SEM) and energy dispersive spectrometer (EDS). The thermoelectric properties of the Cu2Se films with different Ag contents were studied by measuring the resistivity and Seebeck coefficient by Seebeck coefficient/resistance analysis system LSR-3. The results show that the use of magnetron sputtering technology and α-Cu2Se alloy target can prepare Cu-Se thin films with β-Cu2Se phase as the main phase and a very small amount of α-Cu2Se phase. The Ag atom doped in the films does not enter the lattice of the β-Cu2Se phase, but forms a nano-sized CuAgSe second phase in the films. The β-Cu2Se phase lattice of the deposited films is rich in Cu. When the Ag content increases from 0 to 2.97at%, the ratio of [Cu]/[Se] in the β-Cu2Se phase lattice is more than the ideal ratio of 2.0, enhancing from 3.59 to 4.96.The resistivity of the deposited β-Cu2Se films is significantly lower than that of bulk materials in the literature due to Cu-rich in β-Cu2Se phase lattice. With the increase of Ag content, the resistivity of the deposited β-Cu2Se films decreases first and then increases, the Seebeck coefficient of the films increases with resistivity. The sample with Ag content of 1.37at% has the highest power factor due to the significantly higher Seebeck coefficient. The Cu-rich β-Cu2Se films prepared by magnetron sputtering has low resistivity, and the appropriate amount of Ag-doping can significantly increase the absolute value of the Seebeck coefficient, thereby obtaining a higher power factor. © 2021, Chongqing Wujiu Periodicals Press. All rights reserved.

引用

页码：218 / 226

页数：8

共 37 条

[11] Wang-Wei L., Lei Y.A.N.G., Jie C., Et al., Realizing Bi-doped α-Cu2Se as a promising near-room-temperature thermoelectric material[J], Chemical Engineering Journal, 371, pp. 593-599, (2019)
[12] Ming-Jie H., The Structure and Thermoelectric Performance of β-Cu2Se by the Secondary Phase Incurporating and Elements Doping[D], (2015)
[13] Kim M.J., Lee G.G., Kim W., Et al., Effects of Cl-doping on thermoelectric transport properties of Cu2Se prepared by spark plasma sintering[J], Journal of Electronic Materials, 48, 4, pp. 1958-1964, (2019)
[14] Kun-Peng Z., Blichfeld A.B., Hong-Yi C.H.E.N., Et al., Enhanced thermoelectric performance through tuning bonding energy in Cu2Se1–xSx liquid-like materials[J], Chemistry of Materials, 29, 15, pp. 6367-6377, (2017)
[15] Yong-Bin Z., Bo-Ping Z.H., Yong L., Enhancing thermoelectric performance of Cu2Se by doping Te[J], Physical Chemistry Chemical Physics: PCCP, 19, 40, pp. 27664-27669, (2017)
[16] Liu F.S., Huang M.J., Gong Z.N., Et al., Enhancing the thermoelectric performance of β-Cu2Se by incorporating SnSe[J], Journal of Alloys and Compounds, 651, pp. 648-654, (2015)
[17] Wei-Di L., Xiao-Lei S.H.I., Moshwan R., Et al., Enhancing thermoelectric performance of (Cu1–xAgx)2Se via CuAgSe secondary phase and porous design[J], Sustainable Materials and Technologies, 17, (2018)
[18] Butt S., Wei X.U., Farooq M.U., Et al., Enhanced thermoelectricity in high-temperature β-phase copper(I) selenides embedded with Cu2Te nanoclusters[J], ACS Applied Materials & Interfaces, 8, 24, pp. 15196-15204, (2016)
[19] Qiu-Jun H.U., Yan Z.H., Yue-Wen Z., Et al., High thermoelectric performance in Cu2Se/CDs hybrid materials[J], Journal of Alloys and Compounds, 813, 15, (2020)
[20] Pammi S., Jella V., Choi J.S., Et al., Enhanced thermoelectric properties of flexible Cu2–xSe (X≥0.25) NW/polyvinylidene fluoride composite films fabricated via simple mechanical pressing[J], Journal of Materials Chemistry C, 5, 3, pp. 763-769, (2017)

← 1 2 3 4 →