| 1.
New trends, strategies and opportunities in thermoelectric materia..
[42]
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| 2.
Self-compensation induced vacancies for significant phonon scatter..
[40]
|
| 3.
Inhibiting Grain Pulverization and Sulfur Dissolution of Bismuth S..
[36]
|
| 4.
Synergistic enhancement of thermoelectric and mechanical performan..
[35]
|
| 5.
Synergetic tuning of electrical/thermal transport via dual-doping ..
[32]
|
| 6.
Dynamic piezo-thermoelectric generator for simultaneously harvesti..
[31]
|
| 7.
Few-layer transition metal dichalcogenides (MoS2, WS2, and WSe2) f..
[26]
|
| 8.
Enhanced catalytic performance by multi-field coupling in KNbO3 na..
[25]
|
| 9.
Mg3+delta SbxBi2-x Family: A Promising Substitute for the State-of..
[25]
|
| 10.
The enhancement of thermoelectric performance of p-type Li doped M..
[23]
|
| 11.
Thermoelectric interface materials: A perspective to the challenge..
[23]
|
| 12.
Few-layer bismuth selenide cathode for low-temperature quasi-solid..
[23]
|
| 13.
Achieving band convergence by tuning the bonding ionicity in n-typ..
[22]
|
| 14.
High thermoelectric performance of single phase p-type cerium-fill..
[22]
|
| 15.
热电器件的界面和界面材料
[22]
|
| 16.
Anomalous CDW ground state in Cu2Se: A wave-like fluctuation of th..
[21]
|
| 17.
Self-templated microwave-assisted hydrothermal synthesis of two-di..
[21]
|
| 18.
Giant thermopower of ionic gelatin near room temperature
[20]
|
| 19.
Thermoelectric Device: Contact Interface and Interface Materials
[18]
|
| 20.
Thermoelectric SnTe with Band Convergence, Dense Dislocations, and..
[18]
|
| 21.
Comparative studies on thermoelectric properties of p-type Mg2Sn0...
[18]
|
| 22.
Luffa sponge-derived hierarchical meso/macroporous boron nitride f..
[18]
|
| 23.
Thermodynamic activity of solute in multicomponent alloy from firs..
[18]
|
| 24.
Enhanced thermoelectric performances of flexible PEDOT:PSS film by..
[17]
|
| 25.
The effect of charge carrier and doping site on thermoelectric pro..
[16]
|
| 26.
Exclusive enhancement of catalytic activity in Bi0.5Na0.5TiO3nanos..
[16]
|
| 27.
Thermodynamic criterions of the thermoelectric performance enhance..
[16]
|
| 28.
Module-level design and characterization of thermoelectric power g..
[16]
|
| 29.
Enhanced Thermoelectric and Mechanical Properties in Yb0.3Co4Sb12 ..
[15]
|
| 30.
High thermoelectric performance from high carrier mobility and red..
[14]
|
| 31.
Epitaxial growth and thermoelectric properties of Mg3Bi2 thin film..
[13]
|
| 32.
Revealing multi-stage growth mechanism of Kirkendall voids at elec..
[13]
|
| 33.
The complexity of thermoelectric materials: why we need powerful a..
[12]
|
| 34.
Low temperature thermoelectric properties of p-type copper selenid..
[12]
|
| 35.
Thermoelectric properties of p-type polycrystalline Bi0.8Sb0.8In0...
[12]
|
| 36.
Compositional engineering of metal-xanthate precursors toward (Bi1..
[12]
|
| 37.
A general White-Box strategy for designing thermoelectric cooling ..
[12]
|
| 38.
Homo-composition and hetero-structure nanocomposite Pnma Bi2SeS2 -..
[11]
|
| 39.
Maximized atomic disordering approach boost the thermoelectric per..
[10]
|
| 40.
Vacancy Modulating Co3Sn2S2 Topological Semimetal for Aqueous Zinc..
[10]
|
| 41.
Large Transverse and Longitudinal Magneto-Thermoelectric Effect in..
[10]
|
| 42.
Solid-State Janus Nanoprecipitation Enables Amorphous-Like Heat Co..
[10]
|
| 43.
The Electronic Transport Channel Protection and Tuning in Real Spa..
[9]
|
| 44.
3D Hierarchical Electrodes Boosting Ultrahigh Power Output for Gel..
[9]
|
| 45.
一种基于纤毛温度传感的柔性电子皮肤及其制备方法
[9]
|
| 46.
Uplimit (ZT)max and effective merit parameter B* of the..
[9]
|
| 47.
Leaf-Inspired Flexible Thermoelectric Generators with High Tempera..
[8]
|
| 48.
A general design strategy for thermoelectric interface materials i..
[8]
|
| 49.
Wide-temperature-range thermoelectric n-type Mg3(Sb,Bi)2 with high..
[8]
|
| 50.
System efficiency and power: The bridge between the device and sys..
[7]
|
| 51.
Room-temperature thermoelectric materials: Challenges and a new pa..
[7]
|
| 52.
Wearable Thermoelectric Materials and Devices for Self-Powered Ele..
[7]
|
| 53.
Machine learning assisted discovering of new M2X3-type thermoelect..
[7]
|
| 54.
Anion Size Effect of Ionic Liquids in Tuning the Thermoelectric an..
[6]
|
| 55.
Interface and Surface Engineering Realized High Efficiency of 13% ..
[6]
|
| 56.
Proton Irradiation Effects on the Pyroelectric Properties of P-Typ..
[6]
|
| 57.
Structural evolution and thermoelectric properties of Mg3SbxBi2-x ..
[6]
|
| 58.
The bridge between the materials and devices of thermoelectric pow..
[5]
|
| 59.
Enhanced Piezocatalytic Activity of Sr0.5Ba0.5Nb2O6Nanostructures ..
[5]
|
| 60.
Ion regulation in double-network hydrogel module with ultrahigh th..
[5]
|
| 61.
n-型Mg-Sb基室温热电材料及其制备方法
[5]
|
| 62.
Extraordinary thermoelectric performance, thermal stability and me..
[5]
|
| 63.
Coherent acoustic phonon dynamics facilitating acoustic deformatio..
[5]
|
| 64.
Orientation optimization for high performance Mg3Sb
[5]
|
| 65.
Soft liquid-metal/elastomer foam with compression-adjustable therm..
[4]
|
| 66.
General Figures of Merit ZQ for Thermoelectric Generators U..
[4]
|
| 67.
Heat source recognition sensor mimicking the thermosensation funct..
[4]
|
| 68.
Multilayer Electrode Strategy Shorten Thermal Charging Time and Bo..
[4]
|
| 69.
Fiber-based thermoelectric materials and devices for wearable elec..
[3]
|
| 70.
Stable bismuth-antimony alloy cathode with a conversion-dissolutio..
[3]
|
| 71.
吸附过滤装置和用于粉末型催化剂性能评价的实验装置
[3]
|
| 72.
Bistructural Pseudocontinuous Solid Solution with Hierarchical Mic..
[3]
|
| 73.
Bi-Deficiency Leading to High-Performance in Mg-3(Sb,Bi)(2)-Based ..
[3]
|
| 74.
"双一流"建设背景下教学实验室的7S管理与人才培养
[3]
|
| 75.
Boosting room-temperature thermoelectric performance of Mg3Sb1.5Bi..
[3]
|
| 76.
Interweaved filler network in epoxy resin with reduced interface t..
[3]
|
| 77.
All-ceramics with ultrahigh thermal conductivity and superior diel..
[3]
|
| 78.
Ionic thermoelectric materials for near ambient temperature energy..
[2]
|
| 79.
High thermoelectric properties achieved in environmentally friendl..
[2]
|
| 80.
Enhanced Thermoelectric Performance by Strong Phonon Scattering at..
[2]
|
| 81.
Realizing record-high output power in flexible gelatin/GTA-KCl-FeC..
[2]
|
| 82.
Giant transverse thermoelectric effect induced by topological tran..
[2]
|
| 83.
High Thermopower of Agarose-Based Ionic Thermoelectric Gel Through..
[2]
|
| 84.
Small, affordable, ultra-low-temperature vapor-compression and the..
[2]
|
| 85.
High-performance cryo-temperature ionic thermoelectric liquid cell..
[2]
|
| 86.
Polaron interfacial entropy as a route to high thermoelectric perf..
[2]
|
| 87.
An engineering roadmap for the thermoelectric interface materials
[2]
|
| 88.
Ionic thermoelectric gels and devices: Progress, opportunities, an..
[2]
|
| 89.
Thermoelectric transport properties of p-type Bi2Se
[2]
|
| 90.
Reliable prediction of efficiency and output power and balance bet..
[1]
|
| 91.
Anionic entanglement-induced giant thermopower in ionic thermoelec..
[1]
|
| 92.
基于传热理论的热电能量转换系统集成分析
[1]
|
| 93.
Giant negative electrocaloric effect measured by indirect method i..
[1]
|
| 94.
Thermoelectrocatalysis: an emerging strategy for converting waste ..
[1]
|
