Low-Temperature Thermoelectric Properties of β-Ag2Se Synthesized by Hydrothermal Reaction

Wang, Hanfu; Chu, Weiguo; Wang, Dongwei; Mao, Weichen; Pan, Wenying; Guo, Yanjun; Xiong, Yan; Jin, Hao

doi:10.1007/s11664-010-1484-x

Cited by 29 publications

(22 citation statements)

References 21 publications

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“…5 in red triangles) was found to be -136 ± 14, -94 ± 9, -107 ± 11, -112 ± 11, and -118 ±12 μV/K for 0.084, 0.078, 0.071, 0.044, and -0.015 V, respectively. The maximum Seebeck coefficient of -136 ± 14 was observed for the film grown at 0.084 V. The Seebeck coefficient values obtained in this study are similar to the values found in the literature for bulk silver selenide [20][21][22][23]26 and films 24,25 . The maximum value in this magnitude (-180 μV/K at RT) found in the literature was obtained in thin films grown by sputtering 19 .…”

Section: Thermoelectric Properties Of Silver Selenide Films and Flexible Thermoelectric Power Generatorsupporting

confidence: 89%

“…However, two years ago, silver selenide thin films were developed 19,24,25 . These materials were obtained using spark plasma sintering (SPS) 22,26 , ball-milling process 27 , microwaveassisted solution 28 , hot pressing 21 , Pulsed Hybrid Reactive Magnetron Sputtering (PHRMS) 19 , or vacuum-assisted infiltration 24,25 . The thermoelectric properties of silver selenide grown by these techniques were studied.…”

Section: Sustainable Energy and Fuels Accepted Manuscriptmentioning

confidence: 99%

“…In addition, the thermal conductivity is very low in both cases, with values between 1.5 21 and 0.64 W/m•K 19 . These thermoelectric properties result in a figure of merit between 0.6 26 and 1.2 19 at room temperature. These high values of zT at room temperature makes this material of interest for room temperature applications.…”

Section: Sustainable Energy and Fuels Accepted Manuscriptmentioning

confidence: 99%

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High thermoelectric efficiency in electrodeposited silver selenide films: from Pourbaix diagram to a flexible thermoelectric module

Manzano

Olmo

Caballero‐Calero

et al. 2021

Sustainable Energy Fuels

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Section: Thermoelectric Properties Of Silver Selenide Films and Flexible Thermoelectric Power Generatorsupporting

confidence: 89%

Section: Sustainable Energy and Fuels Accepted Manuscriptmentioning

confidence: 99%

Section: Sustainable Energy and Fuels Accepted Manuscriptmentioning

confidence: 99%

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High thermoelectric efficiency in electrodeposited silver selenide films: from Pourbaix diagram to a flexible thermoelectric module

Manzano

Olmo

Caballero‐Calero

et al. 2021

Sustainable Energy Fuels

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“…This is consistent with the literature. [15][16][17] Thus, the band gap (E g ) in a semiconductor under intrinsic state is described by 18 Table I. They are 0.20 eV 6 15%, which is comparable with the previous studies.…”

supporting

confidence: 85%

“…In addition, due to its low band gap ($0.2 eV) 11,12 which is similar to Bi 2 Te 3 , 13 Ag 2 Se is expected to show the maximum zT values around room temperature. Experimentally, it has been demonstrated that Ag 2 Se has high r, moderate S, and small j by a handful of recent literature, [14][15][16] in which the researchers mainly focused on the low temperature TE transport. A maximum zT of 0.96 at 300 K is reported only by Ferhat and Nagao.…”

mentioning

confidence: 99%

Thermoelectric transport of Se-rich Ag2Se in normal phases and phase transitions

Qiu

Zhang

et al. 2014

Applied Physics Letters

160

157

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Small amount of Se atoms are used to tune the carrier concentrations (nH) and electrical transport in Ag2Se. Significant enhancements in power factor and thermoelectric figure of merit (zT) are observed in the compositions of Ag2Se1.06 and Ag2Se1.08. The excessive Se atoms do not change the intrinsically electron-conducting character in Ag2Se. The detailed analysis reveals the experiment optimum carrier concentration in Ag2Se is around 5 × 1018 cm−3. We also investigate the temperature of maximum zT and the thermoelectric transport during the first order phase transitions using the recently developed measurement system.

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Ag₂Q‐Based (Q = S, Se, Te) Silver Chalcogenide Thermoelectric Materials

et al. 2022

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should have a high electrical conductivity (σ), a high Seebeck coefficient (S), and a low thermal conductivity (κ). [6][7][8][9] Cu 2 Q-and Ag 2 Q-based (Q = S, Se, Te) chalcogenides are exemplified with partially decoupled electrical and thermal transports. Over the past decade, Cu 2 Q materials have been widely investigated, showcasing remarkable zT values (around 2.0) at high temperatures. [10][11][12][13][14] As the homologous compounds sharing some common features, Ag 2 Q-based silver chalcogenides have arisen as a new spotlight in thermoelectrics (Figure 1) in recent years. Notably, the high zT values near unity of Ag 2 Se [15][16][17] make it a potential candidate for room-temperature thermoelectric application. In fact, Ag 2 Q compounds are "old" materials whose discovery can be traced back to the 19th century. [18][19][20] Their thermoelectric properties were first reported in the 1940s-1960s during which decent performance of Ag 2 Se and Ag 2 Te was unveiled. [21][22][23][24][25][26] After that, the study on Ag 2 Q had faded out over decades accompanying the low ebb of thermoelectric research. [27,28] Upon the turn of the century, especially over the last 10 years, the revival has come for thermoelectrics, bringing about great progress in transport theories, [29][30][31][32][33] advanced synthesis, [34][35][36][37] and characterization techniques, [38][39][40] and even the research paradigm. [41][42][43] All these progresses have boosted zT from 1 to 2 in not a few new or old thermoelectric materials. [44][45][46][47][48] In the same period, the booming of flexible/wearable electronics necessitates thermoelectric materials having both high performance and deformability at room temperature. [49][50][51][52] All these factors inspire people to revisit Ag 2 Q-based materials.Ag 2 Q-based materials exhibit a low lattice thermal conductivity originating from the large disorder or even liquid-like behavior of Ag ions. [53][54][55][56] They tend to show n-type conduction with a high electron mobility. [15,57,58] Apart from the thermoelectric properties, an exceptional room-temperature plasticity has been found in Ag 2 S-based materials (Figure 1), [59] which is quite rare and valuable for inorganic semiconductors. [60] Beyond the binary compounds, several ternary and even quaternary Ag 2 (S, Se, Te) alloys have been developed, exhibiting both high zT values and excellent plastic deformability. [54,[61][62][63] In addition, CuAgQ materials, the intermediate compounds between Ag 2 Q and Cu 2 Q, have also received wide attention as promising thermoelectric materials. [64][65][66][67] Considering the new, intriguing scientific issues and great application prospects of Ag 2 Q-based silver chalcogenide thermoelectric materials, here in this review, we try to provide the Thermoelectric technology provides a promising solution to sustainable energy utilization and scalable power supply. Recently, Ag 2 Q-based (Q = S, Se, Te) silver chalcogenides have come forth as potential thermoelectric materials that are endowed wi...

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Low-Temperature Thermoelectric Properties of β-Ag2Se Synthesized by Hydrothermal Reaction

Cited by 29 publications

References 21 publications

High thermoelectric efficiency in electrodeposited silver selenide films: from Pourbaix diagram to a flexible thermoelectric module

High thermoelectric efficiency in electrodeposited silver selenide films: from Pourbaix diagram to a flexible thermoelectric module

Thermoelectric transport of Se-rich Ag2Se in normal phases and phase transitions

Ag₂Q‐Based (Q = S, Se, Te) Silver Chalcogenide Thermoelectric Materials

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Low-Temperature Thermoelectric Properties of β-Ag2Se Synthesized by Hydrothermal Reaction

Cited by 29 publications

References 21 publications

High thermoelectric efficiency in electrodeposited silver selenide films: from Pourbaix diagram to a flexible thermoelectric module

High thermoelectric efficiency in electrodeposited silver selenide films: from Pourbaix diagram to a flexible thermoelectric module

Thermoelectric transport of Se-rich Ag2Se in normal phases and phase transitions

Ag2Q‐Based (Q = S, Se, Te) Silver Chalcogenide Thermoelectric Materials

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Ag₂Q‐Based (Q = S, Se, Te) Silver Chalcogenide Thermoelectric Materials