[1] SUN T, WANG L, JIANG W. Pushing thermoelectric generators toward energy harvesting from the human body: challenges and strategies[J]. Materials Today, 121(2022).

[2] ZHANG Z, SUN T, WANG L et al. Research progress on n-type carbon nanotube-based thermoelectric materials[M]. Journal of Liaocheng University (Natural Science Edition), 29(2023).

[3] WANG Y, YANG L, SHI X L et al. Flexible thermoelectric materials and generators: challenges and innovations[J]. Advanced Materials, 1807916(2019).

[4] WANG S, JIANG M, WANG L et al. n-Type Pb-free AgBiSe₂ based thermoelectric materials with stable cubic phase structure[J]. Journal of Inorganic Materials, 807(2023).

[5] HU Z, FU Y, JIANG M et al. Thermal stability of Nb/Mg₃SbBi interface[J]. Journal of Inorganic Materials, 931(2023).

[6] SHI X L, ZOU J, CHEN Z G. Advanced thermoelectric design: from materials and structures to devices[J]. Chemical Reviews, 7399(2020).

[7] PETSAGKOURAKIS I, TYBRANDT K, CRISPIN X et al. Thermoelectric materials and applications for energy harvesting power generation[J]. Science and Technology of Advanced Materials, 836(2018).

[8] BLACKBURN J L, FERGUSON A J, CHO C et al. Carbon- nanotube-based thermoelectric materials and devices[J]. Advanced Materials, 1704386(2018).

[9] WANG C, XIA K, WANG H et al. Advanced carbon for flexible and wearable electronics[J]. Advanced Materials, 1801072(2019).

[10] YANG J, PU Y, YU H et al. A cross-plane design for wearable thermoelectric generators with high stretchability and output performance[J]. Small, 2304529(2023).

[11] SUN T, ZHOU B, ZHENG Q et al. Stretchable fabric generates electric power from woven thermoelectric fibers[J]. Nature Communications, 572(2020).

[12] YANG S, LI Y, DENG L et al. Flexible thermoelectric generator and energy management electronics powered by body heat[J]. Microsystems & Nanoengineering, 106(2023).

[13] LIU Y, LI Y, WU M et al. Nanoengineering approach toward high power factor Ag₂Se/Se composite films for flexible thermoelectric generators[J]. ACS Applied Materials & Interfaces, 36587(2023).

[14] WU H, SHI X, DUAN J et al. Advances in Ag₂Se-based thermoelectrics from materials to applications[J]. Energy & Environmental Science, 1870(2023).

[15] WANG J, FAN W, YANG J et al. Tetragonal-orthorhombic-cubic phase transitions in Ag₂Se nanocrystals[J]. Chemistry of Materials, 5647(2014).

[16] LIN S, GUO L, WANG X et al. Revealing the promising near-room-temperature thermoelectric performance in Ag₂Se single crystals[J]. Journal of Materiomics, 754(2023).

[17] DING Y, QIU Y, CAI K et al. High performance n-type Ag₂Se film on Nylon membrane for flexible thermoelectric power generator[J]. Nature Communications, 841(2019).

[18] LI X, LU Y, CAI K et al. Exceptional power factor of flexible Ag/Ag₂Se thermoelectric composite films[J]. Chemical Engineering Journal, 134739(2022).

[19] YAN L, QI R, CHEN M et al. Microstructurally tailored thin β-Ag₂Se films towards commercial flexible thermoelectrics[J]. Advanced Materials, 2104786(2022).

[20] WANG Z, LIU Y, LI J et al. High-performance Ag₂Se film by a template method for flexible thermoelectric generator[J]. Materials Today Physics, 101147(2023).

[21] ZHANG K, ZHENG Q, WANG L et al. Preparation and characterization of Ag₂Se-based ink used for inkjet printing[J]. Journal of Inorganic Materials, 1109(2022).

[22] KOCZKUR K M, MOURDIKOUDIS S, POLAVARAPU L et al. Polyvinylpyrrolidone (PVP) in nanoparticle synthesis[J]. Dalton Transactions, 17883(2015).

[23] JIANG C, WEI P, DING Y et al. Ultrahigh performance polyvinylpyrrolidone/Ag₂Se composite thermoelectric film for flexible energy harvesting[J]. Nano Energy, 105488(2021).

[24] LIU Y, LU Y, WANG Z et al. High performance Ag₂Se films by a one-pot method for a flexible thermoelectric generator[J]. Journal of Materials Chemistry A, 25644(2022).

[25] HOU S, LIU Y, YIN L et al. High performance wearable thermoelectric generators using Ag₂Se films with large carrier mobility[J]. Nano Energy, 106223(2021).

[26] LIU Y, LI J, WANG Z et al. High thermoelectric performance of flexible Ag/Ag₂Se composite film on nylon for low-grade energy harvesting[J]. Journal of Materials Science & Technology, 79(2024).

[27] ZANG J, MA Y, ZHAO Y et al. Effect of post-annealing treatment on the thermoelectric properties of Ag₂Se flexible thin film prepared by magnetron sputtering method[J]. Results in Physics, 106222(2023).

[28] LIU Y, ZHANG Q, HUANG A et al. Fully inkjet-printed Ag₂Se flexible thermoelectric devices for sustainable power generation[J]. Nature Communications, 2141(2024).

[29] LI Y, LOU Q, YANG J et al. Exceptionally high power factor Ag₂Se/Se/polypyrrole composite films for flexible thermoelectric generators[J]. Advanced Functional Materials, 2106902(2022).

[30] ZHU J, LI F, ZHAO L et al. Study on the structure and thermoelectric performance of SnSe cubic phase stabilized by AgBiSe₂ alloying[M]. Journal of Liaocheng University (Natural Science Edition), 59(2023).

[31] PALAPORN D, MONGKOLTHANARUK W, TANUSILP S et al. A simple method for fabricating flexible thermoelectric nanocomposites based on bacterial cellulose nanofiber and Ag₂Se[J]. Applied Physics Letters, 3901(2022).

[32] ZHOU H, ZHANG Z, SUN C et al. Biomimetic approach to facilitate the high filler content in free-standing and flexible thermoelectric polymer composite films based on PVDF and Ag₂Se nanowires[J]. ACS Applied Materials & Interfaces, 51506(2020).