Preparation of (TiTe2)3(Sb2Te3)_y(TiTe2)3(Bi2Te3)_z Superlattices using the Modulated Elemental Reactants (MER) Technique

机译：使用调制的元素反应物（MER）技术制备（TITE2）3（SB2TE3）_Y（BI2TE3）3（BI2TE3）_Z超晶格

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Difficulty in preparing (Bi2Te3)_x(Sb2Te3)_y superlattices due to interdiffusion of Sb and Bi led to the study of interduffusion barriers. TiTe2 has been explored as an interdiffusion barrier to minimize the interdiffusion of Sb and Bi, as TiTe2 is not soluble in either Bi2Te3 or Sb2Te3. Preparation of (TiTe2)3(Sb2Te3)_y(TiTe2)3(Bi2Te3)_z superlattices has been achieved with varying x, y and z. The formation of the superlattices was studied as a function of annealing temperature and time. TOF-SFMS depth profiles were used to study the extent of interdiffusion in the samples. Unit cell control was achieved allowing for the preparation of an array of superlattices with varying periods with very good reproducibility.

机译：准备（Bi2te3）_X（SB2TE3）_y超晶格由于SB和BI的相互扩散导致互通屏障的研究。 Tite2已被探索为相互扩散屏障，以最小化Sb和Bi的相互扩散，因为Tite2不溶于Bi2te3或Sb2te3。（SB2TIT2）3（SB2TE3）_Y（TITE2）3（BI2TE3）3（BI2TE3）_Z超晶格已经通过不同的X，Y和Z实现。作为退火温度和时间的函数研究了超晶格的形成。 TOF-SFMS深度轮廓用于研究样品中的相互积分的程度。实现单元电池控制允许制备具有不同周期的超晶片阵列，具有非常好的再现性。

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《Symposium on Materials and Technologies for Direct Thermal-to-Electric Energy Conversion》|2006年||共6页
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C. Mortensen; B. Matelich; R. Rostek;
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1. The synthesis of [(Bi2Te3)(x){(TiTe2)(y)}(1.36)] superlattices from modulated elemental reactants [J] . Harris FR, Standridge S, Johnson DC Journal of the American Chemical Society . 2005,第21期

机译：由调制元素反应物合成[（Bi2Te3）（x）{（TiTe2）（y）}（1.36）]超晶格
2. Effect of structure architecture on optical properties of TiTe2/Sb2Te3 multilayer nanofilms [J] . Han Gang, Liu Furong, Zhang Yongzhi, Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2021,第1期

机译：结构架构对Tite2 / Sb2te3多层纳米岩光学性质的影响
3. Acoustic phonon scattering in Bi2Te3/Sb2Te3 superlattices [J] . Wang Yaguo, Liebig Carl, Xu Xianfan, Applied Physics Letters . 2010,第8期

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4. Preparation of (TiTe2)3(Sb2Te3)_y(TiTe2)3(Bi2Te3)_z Superlattices using the Modulated Elemental Reactants (MER) Technique [C] . C. Mortensen, B. Matelich, R. Rostek Symposium on Materials and Technologies for Direct Thermal-to-Electric Energy Conversion . 2006

机译：使用调制的元素反应物（MER）技术制备（TITE2）3（SB2TE3）_Y（BI2TE3）3（BI2TE3）_Z超晶格
5. Self-assembly Behavior of Modulated Elemental Reactants [D] . Cordova, Dmitri Leo M. 2020

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6. Emergence of charge density waves and a pseudogap in single-layer TiTe2 [O] . P. Chen, Woei Wu Pai, Y.-H. Chan, -1

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7. The Evaluation of TiTe2 as a Diffusion Barrier in the Formation of Low Thermal Conductivity Nanolaminates with Bi2Te3 and Sb2Te3 [O] . Clay Mortensen, A Paul Zschack, David C. Johnson 2016

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8. Bi2Te3/Sb2Te3 Superlattice Structures for High-ZT Thermoelectric Cooling Devices [R] . Venkatasubramanian, R. 1997

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Preparation of (TiTe2)3(Sb2Te3)_y(TiTe2)3(Bi2Te3)_z Superlattices using the Modulated Elemental Reactants (MER) Technique

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