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45 results on '"Zhou, Bi Cheng"'

1. A Cluster-Based Computational Thermodynamics Framework with Intrinsic Chemical Short-Range Order: Part I. Configurational Contribution

Author

Fu, Chu-Liang, Gorrey, Rajendra Prasad, and Zhou, Bi-Cheng

Subjects
Condensed Matter - Materials Science, Physics - Chemical Physics
Abstract

Exploiting Chemical Short-Range Order (CSRO) is a promising avenue for manipulating the properties of alloys. However, existing modeling frameworks are not sufficient to predict CSRO in multicomponent alloys (>3 components) in an efficient and reliable manner. In this work, we developed a hybrid computational thermodynamics framework by combining unique advantages from Cluster Variation Method (CVM) and CALculation of PHAse Diagram (CALPHAD) method. The key is to decompose the cumbersome cluster variables in CVM into fewer site variables of the basic cluster using the Fowler-Yang-Li (FYL) transform, which considerably reduces the number of variables that must be minimized for multicomponent systems. CSRO is incorporated into CALPHAD with a novel cluster-based solution model called FYL-CVM. This new framework brings more physics into CALPHAD while maintaining its practicality and achieves a good balance between accuracy and computational cost. It leverages statistical mechanics to yield a more physical description of configurational entropy and opens the door to cluster-based CALPHAD database development. The application of the FYL-CVM model in a prototype fcc AB alloy demonstrates its capability to correctly reproduce the essential features of the phase diagram and thermodynamic properties. The hybrid CVM-CALPHAD framework represents a new methodology for thermodynamic modeling that enables atomic-scale order to be exploited for materials design.

Published
2023

11. Adsorption-controlled growth of La-doped BaSnO3 by molecular-beam epitaxy

Author

Paik, Hanjong, Chen, Zhen, Lochocki, Edward, Seidner, Ariel H., Verma, Amit, Tanen, Nicholas, Park, Jisung, Uchida, Masaki, Shang, ShunLi, Zhou, Bi-Cheng, Brützam, Mario, Uecker, Reinhard, Liu, Zi-Kui, Jena, Debdeep, Shen, Kyle M., Muller, David A., and Schlom, Darrell G.

Subjects
Condensed Matter - Materials Science
Abstract

Epitaxial La doped BaSnO3 films were grown in an adsorption controlled regime by molecular beam epitaxy, where the excess volatile SnOx desorbs from the film surface. A film grown on a (001) DyScO3 substrate exhibited a mobility of 183 cm^2 V^-1 s^-1 at room temperature and 400 cm^2 V^-1 s^-1 at 10 K, despite the high concentration (1.2x10^11 cm^-2) of threading dislocations present. In comparison to other reports, we observe a much lower concentration of (BaO)2 Ruddlesden Popper crystallographic shear faults. This suggests that in addition to threading dislocations that other defects possibly (BaO)2 crystallographic shear defects or point defects significantly reduce the electron mobility.

Published
2017

12. First-Principles Thermodynamic Theory of Seebeck Coefficients

Author

Wang, Yi, Hu, Yong-Jie, Shang, Shun-Li, Zhou, Bi-Cheng, Liu, Zi-Kui, and Chen, Long-Qing

Subjects
Condensed Matter - Materials Science, Condensed Matter - Statistical Mechanics
Abstract

Thermoelectric effects, measured by the Seebeck coefficients, refer to the phenomena in which a temperature difference or gradient imposed across a thermoelectric material induces an electrical potential difference or gradient, and vice versa, enabling the direct conversion of thermal and electric energies. All existing understanding and first-principles calculations of Seebeck coefficients have been based on the Boltzmann kinetic transport theory. Here we demonstrate that the Seebeck coefficient is a well-defined thermodynamic quantity that can be determined from the change in the chemical potential of electrons induced by the temperature change and thus can be efficiently computed solely based on the electronic density of states through first-principles calculations at different temperatures. The proposed approach is demonstrated using the prototype PbTe and SnSe thermoelectric materials. The proposed thermodynamic approach dramatically simplifies the calculations of Seebeck coefficients, making it possible to search for high performance thermoelectric materials using high-throughput first-principles calculations.

Published
2017
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30. An ultrathin and broadband radar absorber using metamaterials.

Author

Zhou, Bi Cheng, Wang, Dong Hong, Ma, Jiang Jiang, Li, Bao Yi, Zhao, Ya Juan, and Li, Ke Xun

Subjects
*ELECTRICAL conductors, *CURRENT distribution, *METAMATERIALS, *ABSORPTION
Abstract

In this article, the design, simulation, fabrication and measurement of an ultrathin and wide band radar metamaterial absorber (MMA) are introduced. The unit of the MMA consists of two different sizes of L-shaped structure and a perfect electric conductor separated by 2 mm dielectric layer (only 0.074 λ to 0.156 λ at lowest and highest frequencies, respectively). The simulation results show that the proposed MMA has more than 90% good absorption (below −10 dB) in the frequency range of 11.07–23.36 GHz. By adjusting the scale of the unit, the absorption characteristics of the proposed absorber can be adjusted and moved to the frequency range which we are interested in. The absorption mechanism of the proposed absorber is also analyzed by field and surface current distributions. The proposed absorber has been fabricated and experimentally tested for absorbing properties at different angles of incidence and different polarizations. The experimental results show the absorption rates are consistent with the simulation results. The proposed absorber has potential applications in stealth technology. [ABSTRACT FROM AUTHOR]

Published
2021
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31. Passivation Phenomena in Single Phase High Entropy Alloys: The Evolution of Oxide Composition in Chloride

Author

Gerard, Angela Yu, primary, Freedy, Keren M, additional, Wang, Kang, additional, HAN, Junsoo, additional, Zhou, Bi-Cheng, additional, McDonnell, Stephen, additional, Schreiber, Dan, additional, Saal, James, additional, Lu, Pin, additional, Sahu, Sarita, additional, Li, Tianshu, additional, Windl, Wolfgang, additional, Frankel, Gerald S., additional, and Scully, John R., additional

Published
2019
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37. Broadband Tunable Filter Based on Square Loop Metamaterial

Author

李宝毅 Li Bao-yi, 周必成 Zhou Bi-cheng, 王东红 Wang Dong-hong, 张婷 Zhang Ting, 张晗 Zhang Han, and 赵亚娟 Zhao Ya-juan

Subjects
Loop (topology), Materials science, Filter (video), Acoustics, Broadband, Metamaterial, Atomic and Molecular Physics, and Optics, Square (algebra)
Published
2018

38. Adsorption-controlled growth of La-doped BaSnO3 by molecular-beam epitaxy

Author

Paik, Hanjong, primary, Chen, Zhen, additional, Lochocki, Edward, additional, Seidner H., Ariel, additional, Verma, Amit, additional, Tanen, Nicholas, additional, Park, Jisung, additional, Uchida, Masaki, additional, Shang, ShunLi, additional, Zhou, Bi-Cheng, additional, Brützam, Mario, additional, Uecker, Reinhard, additional, Liu, Zi-Kui, additional, Jena, Debdeep, additional, Shen, Kyle M., additional, Muller, David A., additional, and Schlom, Darrell G., additional

Published
2017
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39. Structure and Formation Mechanisms in Tantalum and Niobium Oxides in Superconducting Quantum Circuits

Author

Oh, Jin-Su, Zaman, Rahim, Murthy, Akshay A., Bal, Mustafa, Crisa, Francesco, Zhu, Shaojiang, Torres-Castendo, Carlos G., Kopas, Cameron J., Mutus, Joshua Y., Jing, Dapeng, Zasadzinski, John, Grassellino, Anna, Romanenko, Alex, Hersam, Mark C., Bedzyk, Michael J., Kramer, Matt, Zhou, Bi-Cheng, and Zhou, Lin

Abstract

Improving the qubit’s lifetime (T1) is crucial for fault-tolerant quantum computing. Recent advancements have shown that replacing niobium (Nb) with tantalum (Ta) as the base metal significantly increases T1, likely due to a less lossy native surface oxide. However, understanding the formation mechanism and nature of both surface oxides is still limited. Using aberration-corrected transmission electron microscopy and electron energy loss spectroscopy, we found that Ta surface oxide has fewer suboxides than Nb oxide. We observed an abrupt oxidation state transition from Ta2O5to Ta, as opposed to the gradual shift from Nb2O5, NbO2, and NbO to Nb, consistent with thermodynamic modeling. Additionally, amorphous Ta2O5exhibits a closer-to-crystalline bonding nature than Nb2O5, potentially hindering H atomic diffusion toward the oxide/metal interface. Finally, we propose a loss mechanism arising from the transition between two states within the distorted octahedron in an amorphous structure, potentially causing two-level system loss. Our findings offer a deeper understanding of the differences between native amorphous Ta and Nb oxides, providing valuable insights for advancing superconducting qubits through surface oxide engineering.

Published
2024
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45. Modeling of Thermodynamic and Diffusion Properties in Ionic Materials

Author

Zhou, Bi Cheng and Liu, Zi Kui

Abstract

In this chapter, the modeling techniques of the thermodynamic and diffusion properties based on density functional theory in ionic materials, specifically oxide ceramic materials or ionic conductor materials are reviewed. Section 1 is the introduction of this book chapter. Section 2 is devoted to introduce the modeling methods of first-principles finite temperature thermodynamics, including quasi-harmonic phonon calculations and the Debye model. In the phonon model, the frozen phonon method, the linear response method, and the newly developed mixed-space method to model ionic polar materials are discussed. Section 3 introduces the general atomic diffusion theory, first-principles transition state calculations (double-well approach), and ab initio molecular dynamics simulations of the diffusion coefficients in ionic materials. Section 4 discusses some of the recent works of first-principles prediction of the thermodynamic and diffusion properties of ionic materials from our group and in the literature, with a focus on oxides for energy applications. Section 5 summarizes this book chapter.

Published
2014
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