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High thermoelectric performance in (Bi_(0.25)Sb_(0.75)_2 Te_3 due to band convergence and improved by carrier concentration control

机译：（Bi_（0.25）Sb_（0.75）_2 Te_3的高热电性能由于能带收敛而产生，并通过载流子浓度控制得到改善

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Bi_2Te_3 has been recognized as an important cooling material for thermoelectric applications. Yet its thermoelectric performance could still be improved. Here we propose a band engineering strategy by optimizing the converging valence bands of Bi_2Te_3 and Sb_2Te_3 in the (Bi_(1−x)Sb_x)_2Te_3 system when x = 0.75. Band convergence successfully explains the sharp increase in density-of-states effective mass yet relatively constant mobility and optical band gap measurement. This band convergence picture guides the carrier concentration tuning for optimum thermoelectric performance. To synthesize homogeneous textured and optimally doped (Bi0.25Sb0.75)2Te3, excess Te was chosen as the dopant. Uniform control of the optimized thermoelectric composition was achieved by zone-melting which utilizes separate solidus and liquidus compositions to obtain zT = 1.05 (at 300 K) without nanostructuring.

机译：Bi_2Te_3被公认为是热电应用中的重要冷却材料。然而，其热电性能仍然可以提高。在这里，我们通过优化x = 0.75时（Bi_（1-x）Sb_x）_2Te_3系统中Bi_2Te_3和Sb_2Te_3的会聚价带来提出一种能带工程策略。频带收敛成功地解释了状态密度有效质量的急剧增加，但迁移率和光学带隙测量相对稳定。该频带收敛图指导了载流子浓度调整，以实现最佳的热电性能。为了合成均质织构和最佳掺杂的（Bi0.25Sb0.75）2Te3，选择了过量的Te作为掺杂剂。通过区域熔化实现了对优化的热电成分的统一控制，该区域熔化利用独立的固相线和液相线成分获得zT = 1.05（在300 K下），而无需进行纳米结构化。

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Kim, Hyun-Sik; Heinz, Nicholas A.; Gibbs, Zachary M.; Tang, Yinglu; Kang, Stephen D.; Snyder, G. Jeffrey;
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1. High thermoelectric performance in (Bi0.25Sb0.75)2Te3 due to band convergence and improved by carrier concentration control [J] . Hyun-SikKim123, Nicholas A.Heinz25, Zachary M.Gibbs4, Materials today . 2017,第8期

机译：（Bi0.25Sb0.75）2Te3具有高的热电性能，因为其能带收敛并且通过载流子浓度控制得以改善
2. Enhanced thermoelectric performance of (Sb_(0.75)Bi_(0.25))_2Te_3 compound from first-principles calculations [J] . H. Y. Lv, H. J. Liu, L. Pan, Applied Physicsletters . 2010,第14期

机译：通过第一性原理计算，增强了（Sb_（0.75）Bi_（0.25））_ 2Te_3化合物的热电性能
3. Synthesis and Thermoelectric Performance of (Bi_(0.25)Sb_(0.75))_2Te_3 Polycrystals Dispersed with Ag and BN [J] . Liu Xue-Dong, Yong-Ho Park Materials transactions . 2002,第1期

机译：Ag和BN分散的（Bi_（0.25）Sb_（0.75））_ 2Te_3多晶体的合成及热电性能
4. Influence of Extrusion Temperature on the Thermoelectric Properties of p-Type Ag Added (Bi_(0.25)Sb_(0.75))_2Te_3 Alloys Prepared by MA-PDS [C] . Wangkee Min, Changho Lee, Yongho Park, China International Conference on High-Performance Ceramics . 2007

机译：挤出温度对施加P型Ag热电性能的影响（Bi_（0.25）Sb_（0.75））_ 2Te_3由MA-Pds制备的合金
5. An Accuracy Controlled Combined Adaption-Optimization Scheme for Improving the Performance of Three-Dimensional Microwave Devices over a Frequency Band. [D] . Nair, Dileep. 2009

机译：一种精度控制的组合自适应优化方案，用于提高一个频段上的三维微波设备的性能。
6. Efficacy of ropivacaine by the concentration of 0.25 0.5 and 0.75 on surgical performance postoperative analgesia and patient’s satisfaction in inguinal hernioplasty: a randomized controlled trial [O] . Yinglan Su, Zhongjun Zhang, Yaoxian Zhang, 2015

机译：罗非卡因浓度为0.25％0.5％和0.75％对手术性能术后镇痛和腹股沟疝修补术患者满意度的有效性：一项随机对照试验
7. Zone Leveling Crystal Growth of Thermoelectric PbTe Alloys with Sb_(2)Te_3 Widmanstätten Precipitates [O] . Ikeda Teruyuki, Marolf Nathan J., Snyder G. Jeffrey 2011

机译：具有Sb_（2）Te_3Widmanstätten沉淀物的热电PbTe合金的区域平整晶体生长

High thermoelectric performance in (Bi_(0.25)Sb_(0.75)_2 Te_3 due to band convergence and improved by carrier concentration control

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