Search Results - "Hua‐Lu Zhuang"

Thermoelectric Performance Enhancement in BiSbTe Alloy by Microstructure Modulation via Cyclic Spark Plasma Sintering with Liquid Phase by Zhuang, Hua‐Lu, Pei, Jun, Cai, Bowen, Dong, Jinfeng, Hu, Haihua, Sun, Fu‐Hua, Pan, Yu, Snyder, Gerald Jeffrey, Li, Jing‐Feng

“…The widespread application of thermoelectric (TE) technology demands high‐performance materials, which has stimulated unceasing efforts devoted to the…”
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Bi2Te3-based applied thermoelectric materials: research advances and new challenges by Pei, Jun, Cai, Bowen, Zhuang, Hua-Lu, Li, Jing-Feng

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Thermoelectric Cu12Sb4S13‐Based Synthetic Minerals with a Sublimation‐Derived Porous Network by Hu, Haihua, Zhuang, Hua‐Lu, Jiang, Yilin, Shi, Jianlei, Li, Jing‐Wei, Cai, Bowen, Han, Zhanran, Pei, Jun, Su, Bin, Ge, Zhen‐Hua, Zhang, Bo‐Ping, Li, Jing‐Feng

“…Pores in a solid can effectively reduce thermal conduction, but they are not favored in thermoelectric materials due to simultaneous deterioration of…”
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Melt‐Centrifuged (Bi,Sb)2Te3: Engineering Microstructure toward High Thermoelectric Efficiency by Pan, Yu, Aydemir, Umut, Grovogui, Jann A., Witting, Ian T., Hanus, Riley, Xu, Yaobin, Wu, Jinsong, Wu, Chao‐Feng, Sun, Fu‐Hua, Zhuang, Hua‐Lu, Dong, Jin‐Feng, Li, Jing‐Feng, Dravid, Vinayak P., Snyder, G. Jeffrey

“…Microstructure engineering is an effective strategy to reduce lattice thermal conductivity (κl) and enhance the thermoelectric figure of merit (zT). Through a…”
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Bi‐Deficiency Leading to High‐Performance in Mg3(Sb,Bi)2‐Based Thermoelectric Materials by Li, Jing‐Wei, Liu, Weishu, Xu, Wei, Zhuang, Hua‐Lu, Han, Zhijia, Jiang, Feng, Zhang, Peng, Hu, Haihua, Gao, Hanbin, Jiang, Yilin, Cai, Bowen, Pei, Jun, Su, Bin, Li, Qian, Hayashi, Kei, Li, Hezhang, Miyazaki, Yuzuru, Cao, Xingzhong, Zheng, Qiang, Li, Jing‐Feng

“…Mg3(Sb,Bi)2 is a potential nearly‐room temperature thermoelectric compound composed of earth‐abundant elements. However, complex defect tuning and exceptional…”
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Design and Fabrication of Segmented GeTe/(Bi,Sb)2Te3 Thermoelectric Module with Enhanced Conversion Efficiency by Pei, Jun, Shi, Jian‐Lei, Li, Hezhang, Jiang, Yilin, Dong, Jinfeng, Zhuang, Hua‐Lu, Cai, Bowen, Su, Bin, Yu, Jincheng, Zhou, Wei, Zhang, Bo‐Ping, Li, Jing‐Feng

“…GeTe and (Bi,Sb)2Te3 are two representative thermoelectric (TE) materials showing maximum performance at middle and low temperature, respectively. In order to…”
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Wide-temperature-range thermoelectric n-type Mg3(Sb,Bi)2 with high average and peak zT values by Li, Jing-Wei, Han, Zhijia, Yu, Jincheng, Zhuang, Hua-Lu, Hu, Haihua, Su, Bin, Li, Hezhang, Jiang, Yilin, Chen, Lu, Liu, Weishu, Zheng, Qiang, Li, Jing-Feng

“…Mg 3 (Sb,Bi) 2 is a promising thermoelectric material suited for electronic cooling, but there is still room to optimize its low-temperature performance. This…”
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Evolution of defect structures leading to high ZT in GeTe-based thermoelectric materials by Jiang, Yilin, Dong, Jinfeng, Zhuang, Hua-Lu, Yu, Jincheng, Su, Bin, Li, Hezhang, Pei, Jun, Sun, Fu-Hua, Zhou, Min, Hu, Haihua, Li, Jing-Wei, Han, Zhanran, Zhang, Bo-Ping, Mori, Takao, Li, Jing-Feng

“…GeTe is a promising mid-temperature thermoelectric compound but inevitably contains excessive Ge vacancies hindering its performance maximization. This work…”
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Re‐Doped p ‐Type Thermoelectric SnSe Polycrystals with Enhanced Power Factor and High ZT > 2 by Su, Bin, Han, Zhanran, Jiang, Yilin, Zhuang, Hua‐Lu, Yu, Jincheng, Pei, Jun, Hu, Haihua, Li, Jing‐Wei, He, Yu‐Xiao, Zhang, Bo‐Ping, Li, Jing‐Feng

“…Abstract Thermoelectric technology enables the direct interconversion between heat and electricity. SnSe has received increasing interest as a new promising…”
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Interface‐Enhanced High‐Temperature Thermoelectricity in Cu1.99Se/B4C Composites with Synergistically Improved Mechanical Strength by Yu, Jincheng, Hu, Haihua, Jiang, Yilin, Hua‐Lu Zhuang, Hao‐Cheng Thong, Su, Bin, Jing‐Wei Li, Han, Zhanran, Li, Hezhang, Pei, Jun, Jing‐Feng Li

“…Degenerate semiconductors usually demonstrate a metallic‐like conduction behavior, showing limited carrier mobility at high temperatures. Herein, by…”
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Practical High-Performance (Bi,Sb)2Te3‑Based Thermoelectric Nanocomposites Fabricated by Nanoparticle Mixing and Scrap Recycling by Cai, Bowen, Zhuang, Hua-Lu, Cao, Qian, Hu, Haihua, Dong, Jinfeng, Asfandiyar, Li, Jing-Feng

“…Bi2Te3-based compounds are the most mature and widely used thermoelectric materials. However, industrial device fabrication will inevitably produce a lot of…”
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A sound velocity method for determining isobaric specific heat capacity by Pei, Jun, Li, Hezhang, Zhuang, Hua‐Lu, Dong, Jinfeng, Cai, Bowen, Hu, Haihua, Li, Jing‐Wei, Jiang, Yilin, Su, Bin, Zhao, Li‐Dong, Li, Jing‐Feng

“…Isobaric specific heat capacity (Cp) is an important parameter not only in physics but also for most materials. Its accurate measurement is particularly…”
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Promising materials for thermoelectric applications by Cai, Bowen, Hu, Haihua, Zhuang, Hua-Lu, Li, Jing-Feng

“…Thermoelectric materials can directly convert heat to electricity and vice versa. ZT ( =S2σT/κ ) is usually used for evaluating the performance of…”
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(Bi,Sb)2Te3/SiC nanocomposites with enhanced thermoelectric performance: Effect of SiC nanoparticle size and compositional modulation by Cai, Bowen, Pei, Jun, Dong, Jinfeng, Zhuang, Hua-Lu, Gu, Jinyu, Cao, Qian, Hu, Haihua, Lin, Zihao, Li, Jing-Feng

“…Fabrication of nanoparticle-dispersed composites is an effective strategy for enhancing the performance of thermoelectric materials, and in particular SiC…”
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Spark plasma sintered Bi-Sb-Te alloys derived from ingot scrap: Maximizing thermoelectric performance by tailoring their composition and optimizing sintering time by Cai, Bowen, Zhuang, Hua-Lu, Pei, Jun, Su, Bin, Li, Jing-Wei, Hu, Haihua, Jiang, Yilin, Li, Jing-Feng

“…Bi2Te3-based materials have been widely used in thermoelectric conversion technologies. Thermoelectric modules are fabricated from Bi2Te3-based ingots, but…”
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Graphene network in copper sulfide leading to enhanced thermoelectric properties and thermal stability by Tang, Huaichao, Sun, Fu-Hua, Dong, Jin-Feng, Asfandiyar, Zhuang, Hua-Lu, Pan, Yu, Li, Jing-Feng

“…Copper sulfide has received wide attention as a potential thermoelectric material with high performance and abundant resource. While the liquid-like Cu ions…”
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Highly stabilized and efficient thermoelectric copper selenide by Hu, Haihua, Ju, Yiwei, Yu, Jincheng, Wang, Zechao, Pei, Jun, Thong, Hao-Cheng, Li, Jing-Wei, Cai, Bowen, Liu, Fengming, Han, Zhanran, Su, Bin, Zhuang, Hua-Lu, Jiang, Yilin, Li, Hezhang, Li, Qian, Zhao, Huijuan, Zhang, Bo-Ping, Zhu, Jing, Li, Jing-Feng

“…The liquid-like feature of thermoelectric superionic conductors is a double-edged sword: the long-range migration of ions hinders the phonon transport, but…”
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Polycrystalline SnSe–Sn1–vS solid solutions: Vacancy engineering and nanostructuring leading to high thermoelectric performance by Asfandiyar, Cai, Bowen, Zhuang, Hua-Lu, Tang, Huaichao, Li, Jing-Feng

“…P-type polycrystalline Sn1-vS compounds and Sn0.985S1-xSex solid solutions are prepared by combining mechanical alloying (MA) and spark plasma sintering (SPS)…”
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Nanostructure Engineering and Performance Enhancement in Fe2O3‑Dispersed Cu12Sb4S13 Thermoelectric Composites with Earth-Abundant Elements by Hu, Haihua, Sun, Fu-Hua, Dong, Jinfeng, Zhuang, Hua-Lu, Cai, Bowen, Pei, Jun, Li, Jing-Feng

“…Nanostructuring and defect engineering are increasingly employed as processing strategies for thermoelectric performance enhancement, and special attention has…”
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Exceptional figure of merit achieved in boron-dispersed GeTe-based thermoelectric composites by Jiang, Yilin, Su, Bin, Yu, Jincheng, Han, Zhanran, Hu, Haihua, Zhuang, Hua-Lu, Li, Hezhang, Dong, Jinfeng, Li, Jing-Wei, Wang, Chao, Ge, Zhen-Hua, Feng, Jing, Sun, Fu-Hua, Li, Jing-Feng

“…GeTe is a promising p-type material with increasingly enhanced thermoelectric properties reported in recent years, demonstrating its superiority for…”
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