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126 results on '"Wu, Zhenduo"'

1. Stress-tunable abilities of glass forming and mechanical amorphization

Author

Li, Xinxin, Shang, Baoshuang, Ke, Haibo, Wu, Zhenduo, Lu, Yang, Bai, Haiyang, and Wang, Weihua

Subjects
Condensed Matter - Materials Science
Abstract

Mechanical amorphization, a widely observed phenomenon, has been utilized to synthesize novel phases by inducing disorder through external loading, thereby expanding the realm of glass-forming systems. Empirically, it has been plausible that mechanical amorphization ability consistently correlates with glass-forming ability. However, through a comprehensive investigation in binary, ternary, and quaternary systems combining neutron diffraction, calorimetric experimental approaches and molecular dynamics simulation, we demonstrate that this impression is only partly true and we reveal that the mechanical amorphization ability can be inversely correlated with the glass forming ability in certain cases To provide insights into these intriguing findings, we present a stress-dependent nucleation theory that offers a coherent explanation for both experimental and simulation results. Our study identifies the intensity of mechanical work, contributed by external stress, as the key control parameter for mechanical amorphization, rendering the ability to tune this process. This discovery not only unravels the underlying correlation between mechanical amorphization and glass-forming ability but also provides a pathway for the design and discovery of new amorphous phases with tailored properties.

Published
2024

3. Evolution of medium-range order and its correlation with magnetic nanodomains in Fe-Dy-B-Nb bulk metallic glasses

Author

Ge, Jiacheng, Gu, Yao, Yao, Zhongzhen, Liu, Sinan, Ying, Huiqiang, Lu, Chenyu, Wu, Zhenduo, Ren, Yang, Suzuki, Jun-ichi, Xie, Zhenhua, Ke, Yubin, Zhu, He, Tang, Song, Wang, Xun-Li, and Lan, Si

Subjects
Condensed Matter - Materials Science
Abstract

Fe-based metallic glasses are promising functional materials for advanced magnetism and sensor fields. Tailoring magnetic performance in amorphous materials requires a thorough knowledge of the correlation between structural disorder and magnetic order, which remains ambiguous. Two practical difficulties remain: the first is directly observing subtle magnetic structural changes on multiple scales, and the second is precisely regulating the various amorphous states. Here we propose a novel approach to tailor the amorphous structure through the liquid liquid phase transition. In-situ synchrotron diffraction has unraveled a medium-range ordering process dominated by edge-sharing cluster connectivity during the liquid-liquid phase transition. Moreover, nanodomains with topological order have been found to exist in composition with liquid-liquid phase transition, manifesting as hexagonal patterns in small-angle neutron scattering profiles. The liquid-liquid phase transition can induce the nanodomains to be more locally ordered, generating stronger exchange interactions due to the reduced Fe-Fe bond and the enhanced structural order, leading to the increment of saturation magnetization. Furthermore, the increased local heterogeneity in the medium range scale enhances the magnetic anisotropy, promoting the permeability response under applied stress and leading to a better stress-impedance effect. These experimental results pave the way to tailor the magnetic structure and performance through the liquid-liquid phase transition., Comment: number of pages is 31 and number of figures is 14, including the Supplementary Material

Published
2023

15. In Situ Investigation of Structural Evolution in Zr46Cu46Al8 and Zr56Cu36Al8 Bulk Metallic Glasses During Isothermal Annealing.

Author

Wu, Xuelian, Li, Xiyang, Wu, Zhenduo, Wang, Xun-Li, Wei, Xiaoya, Zhou, Jie, Lu, Zhaoping, Gilbert, Elliot Paul, Sun, Zhengming, Ding, Jianxiang, Liu, Dongming, Yuan, Chenchen, and Lan, Si

Subjects
SMALL-angle neutron scattering, SUPERCOOLED liquids, DIFFERENTIAL scanning calorimetry, CRYSTALLIZATION kinetics, THERMAL stability
Abstract

The crystallization kinetics of Zr46Cu46Al8 and Zr56Cu36Al8 bulk metallic glasses (BMGs) during isothermal annealing in the supercooled liquid region has been studied using in situ simultaneous differential scanning calorimetry (DSC) and small-angle neutron scattering (SANS) technique. Zr46Cu46Al8, known for its good glass forming ability (GFA), exhibits a complex crystallization pathway. Initially, a transition region emerges, eventually evolving into the thermodynamically stable crystalline phase of Cu10Zr7, facilitated by continuous chemical redistribution at the late stage of annealing. In contrast, Zr56Cu36Al8, a poor glass former, crystallizes directly into the thermodynamically stable crystalline phase of CuZr2 in a single step, with no observed chemical redistribution. Overall, the results suggest that continuous chemical redistribution following structural ordering may contribute to stabilizing the amorphous state and improving the thermal stability of BMGs. This study highlights the critical role of chemical redistribution in the crystallization of BMGs and introduces a new perspective for assessing their GFAs. [ABSTRACT FROM AUTHOR]

Published
2024
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22. Direct Ethylene Purification from Cracking Gas via a Metal–Organic Framework Through Pore Geometry Fitting

Author

Chen, Yang, Wu, Zhenduo, Fan, Longlong, Krishna, Rajamani, Huang, Hongliang, Wang, Yi, Xiong, Qizhao, Li, Jinping, and Li, Libo

Abstract

The direct one-step separation of polymer-grade C2H4from complex light hydrocarbon mixtures has high industrial significance but is very challenging. Herein, an ethylene-adsorption-weakening strategy is applied for precise regulation of the pore geometry of four tailor-made metal–organic frameworks (MOFs) with pillar-layered structures, dubbed TYUT-10/11/12/13. Based on its pore geometry design and functional group regulation, TYUT-12 exhibits exceptional selective adsorption selectivity toward C3H8, C3H6, C2H6, C2H2, and CO2over C2H4; its C2H6/C2H4adsorption selectivity reaches 4.56, surpassing the record value of 4.4 by Fe2(O2)(dobdc) (dobdc4− = 2,5-dioxido-1,4-benzenedicarboxylate). The weak π–π stacking binding affinity toward C2H4in TYUT-12 is clearly demonstrated through a combination of neutron powder diffraction measurements and theoretical calculations. Breakthrough experiments demonstrate that C2H4can be directly obtained from binary, ternary, quaternary, and six-component light hydrocarbon mixtures with over 99.95% purity.

Published
2024
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32. Correlations of multiscale structural evolution and homogeneous flows in metallic glass ribbons

Author

Ge, Jiacheng, Luo, Peng, Wu, Zhenduo, Zhang, Wentao, Liu, Sinan, Lan, Si, Almer, Jonathan D., Ren, Yang, Wang, Xun-Li, and Wang, Weihua

Subjects
General Materials Science
Abstract

Studying the flow behavior is critical to understand the deformation mechanism of amorphous solids. However, detecting the basic flow events in amorphous solids is challenging. Here, by simultaneous SAXS/WAXS, elementary flow carriers in wound metallic glasses are identified from flow-induced structural heterogeneities with a radius of gyration of 2.5∼3.5 nm. Their size increases and morphology changes from sphere-like to rod-like under flow. Moreover, the atomic structure exhibits an unusual change to a more disordered state during winding/annealing at the temperature of ∼0.8 Tg. This work provides an atomic-to-nanoscale description of the flow carriers of amorphous solids during deformation. Impact Statement The elementary flow carriers in metallic glasses have a radius of gyration of 2.5∼3.5 nm. During flow, their size increases and morphology changes from sphere-like to rod-like.

Published
2023
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34. Evolution of medium-range order and its correlation with magnetic nanodomains in Fe-Dy-B-Nb bulk metallic glasses

Author

Ge, Jiacheng, primary, Gu, Yao, additional, Yao, Zhongzhen, additional, Liu, Sinan, additional, Ying, Huiqiang, additional, Lu, Chenyu, additional, Wu, Zhenduo, additional, Ren, Yang, additional, Suzuki, Jun-ichi, additional, Xie, Zhenhua, additional, Ke, Yubin, additional, Zeng, Jianrong, additional, Zhu, He, additional, Tang, Song, additional, Wang, Xun-Li, additional, and Lan, Si, additional

Published
2023
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38. Engineering Atomic-to-Nano Scale Structural Homogeneity towards High Corrosion Resistance of Amorphous Magnesium-Based Alloys

Author

Qin, Yuan, primary, Zhang, Wentao, additional, Li, Kanghua, additional, Fu, Shu, additional, Lou, Yu, additional, Liu, Sinan, additional, Ge, Jiacheng, additional, Ying, Huiqiang, additional, Liu, Wei-Di, additional, Zuo, Xiaobing, additional, Shen, Jun, additional, Wei, Shao-Chong, additional, Hahn, Horst, additional, Ren, Yang, additional, Wu, Zhenduo, additional, Wang, Xun-Li, additional, Zhu, He, additional, and Lan, Si, additional

Published
2022
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39. Author Correction: A medium-range structure motif linking amorphous and crystalline states

Author

Lan, Si, primary, Zhu, Li, additional, Wu, Zhenduo, additional, Gu, Lin, additional, Zhang, Qinghua, additional, Kong, Huihui, additional, Liu, Jizi, additional, Song, Ruoyu, additional, Liu, Sinan, additional, Sha, Gang, additional, Wang, Yingang, additional, Liu, Qi, additional, Liu, Wei, additional, Wang, Peiyi, additional, Liu, Chain-Tsuan, additional, Ren, Yang, additional, and Wang, Xun-Li, additional

Published
2021
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44. Stacking Fault Driven Phase Transformation in CrCoNi Medium Entropy Alloy

Author

He, Haiyan, primary, Naeem, Muhammad, additional, Zhang, Fan, additional, Zhao, Yilu, additional, Harjo, Stefanus, additional, Kawasaki, Takuro, additional, Wang, Bing, additional, Wu, Xuelian, additional, Lan, Si, additional, Wu, Zhenduo, additional, Yin, Wen, additional, Wu, Yuan, additional, Lu, Zhaoping, additional, Kai, Ji-Jung, additional, Liu, Chain-Tsuan, additional, and Wang, Xun-Li, additional

Published
2021
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46. Cooperative deformation in high-entropy alloys at ultralow temperatures

Author

Naeem, Muhammad, primary, He, Haiyan, additional, Zhang, Fan, additional, Huang, Hailong, additional, Harjo, Stefanus, additional, Kawasaki, Takuro, additional, Wang, Bing, additional, Lan, Si, additional, Wu, Zhenduo, additional, Wang, Feng, additional, Wu, Yuan, additional, Lu, Zhaoping, additional, Zhang, Zhongwu, additional, Liu, Chain T., additional, and Wang, Xun-Li, additional

Published
2020
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49. Superior fast-charging Ni-rich cathode viapromoted kinetic-mechanical performance

Author

Tang, Yu, Huang, Zhiyong, Wang, Wei, Wen, Yali, Zhang, Shuoxiao, Chen, Xi, Zhang, Zhibo, Yin, Zijia, Yang, Tingting, Li, Tianyi, Gallington, Leighanne C., Zhu, He, Lan, Si, Wang, Steven, Ren, Yang, Wu, Zhenduo, and Liu, Qi

Abstract

The sluggish Li-ion kinetics restrict the rapid charging capabilities and contribute to the structural deterioration of Ni-rich cathode materials. Notably, crack propagation during repeated charging cycles deteriorates the electrochemical stability, which hinders the further development of high-energy-density batteries for electric vehicles (EVs). In this paper, we proposed a simple yet effective method to enhance the Li-ion diffusion and mechanical properties of Ni-rich cathodes viastraightforward Zr doping. In-situhigh-rate XRD reveals that the detrimental uneven delithiation under the fast-charging process has been largely alleviated. Particularly, a robust structure with higher modulus and fracture strength is constructed owing to the higher Zr-O bond. By mitigating the kinetic hindrance and increasing the particle’s stiffness, the proposed Ni-rich cathode shows an impressive 97.6 % capacity retention under a 5 C rate current. This work provides a facile and efficient strategy for large-scale production of fast-charging Ni-rich cathode materials.

Published
2024
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