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Chen, H. F.*; Liu, B. X.*; Xu, P. G.; Fang, W.*; Tong, H. C.*; Yin, F. X.*
Journal of Materials Research and Technology, 32, p.3060 - 3069, 2024/09
Times Cited Count:0 Percentile:0.00(Materials Science, Multidisciplinary)Li, X.*; Zhu, R.*; Xin, J.*; Luo, M.*; Shang, S.-L.*; Liu, Z.-K.*; Yin, C.*; Funakoshi, Kenichi*; Dippenaar, R. J.*; Higo, Yuji*; et al.
CALPHAD; Computer Coupling of Phase Diagrams and Thermochemistry, 84, p.102641_1 - 102641_6, 2024/03
Times Cited Count:0 Percentile:0.00(Thermodynamics)Li, C.*; Fang, W.*; Yu, H. Y.*; Peng, T.*; Yao, Z. T.*; Liu, W. G.*; Zhang, X.*; Xu, P. G.; Yin, F.*
Materials Science & Engineering A, 892, p.146096_1 - 146096_11, 2024/02
Times Cited Count:2 Percentile:82.74(Nanoscience & Nanotechnology)Kaneda, Kazuko*; Shirakami, Yoshifumi*; Kadonaga, Yuichiro*; Watabe, Tadashi*; Oe, Kazuhiro*; Yin, X.*; Haba, Hiromitsu*; Shirasaki, Kenji*; Kikunaga, Hidetoshi*; Tsukada, Kazuaki; et al.
International Journal of Molecular Sciences (Internet), 25(2), p.933_1 - 933_14, 2024/01
Times Cited Count:4 Percentile:91.18(Biochemistry & Molecular Biology)He, H.*; Naeem, M.*; Zhang, F.*; Zhao, Y.*; Harjo, S.; Kawasaki, Takuro; Wang, B.*; Wu, X.*; Lan, S.*; Wu, Z.*; et al.
Nano Letters, 21(3), p.1419 - 1426, 2021/02
Times Cited Count:62 Percentile:96.39(Chemistry, Multidisciplinary)Yin, X.; Zhang, L.*; Meng, C.*; Inaba, Yusuke*; Wang, X.*; Nitta, Ayako; Koma, Yoshikazu; Takeshita, Kenji*
Journal of Hazardous Materials, 387, p.121677_1 - 121677_10, 2020/04
Times Cited Count:13 Percentile:49.27(Engineering, Environmental)Xu, Z.*; Dai, G.*; Li, Y.*; Yin, Z.*; Rong, Y.*; Tian, L.*; Liu, P.*; Wang, H.*; Xing, L.*; Wei, Y.*; et al.
npj Quantum Materials (Internet), 5(1), p.11_1 - 11_7, 2020/02
Times Cited Count:4 Percentile:35.36(Materials Science, Multidisciplinary)Wo, H.*; Wang, Q.*; Shen, Y.*; Zhang, X.*; Hao, Y.*; Feng, Y.*; Shen, S.*; He, Z.*; Pan, B.*; Wang, W.*; et al.
Physical Review Letters, 122(21), p.217003_1 - 217003_5, 2019/05
Times Cited Count:6 Percentile:44.53(Physics, Multidisciplinary)Tam, D. M.*; Song, Y.*; Man, H.*; Cheung, S. C.*; Yin, Z.*; Lu, X.*; Wang, W.*; Frandsen, B. A.*; Liu, L.*; Gong, Z.*; et al.
Physical Review B, 95(6), p.060505_1 - 060505_6, 2017/02
Times Cited Count:24 Percentile:70.10(Materials Science, Multidisciplinary)Yin, X.; Koma, Yoshikazu; Inaba, Yusuke*; Takeshita, Kenji*
no journal, ,
The decontamination and volume reduction of Cs contaminated soil remains a great challenge after the Fukushima Daiichi Nuclear Power Station accident. In present study, the authors aim to develop the continuous hydrothermal treatment process to remove Cs rapidly from the clay soils by a column system. The results will inspire new insights for treatment of post-accident soils in Fukushima.
Yin, X.; Koma, Yoshikazu; Inaba, Yusuke*; Takeshita, Kenji*
no journal, ,
The decontamination and volume reduction of Cs contaminated soil by efficient Cs removal remains a great challenge after the Fukushima Daiichi Nuclear Power Station accident. In present work, we studied the selective removal of Cs from the clay soils by treating with hydrothermal cations in a column system. The results will inspire new insights for treatment of post-accident soils in Fukushima.
Yin, X.; Koma, Yoshikazu; Inaba, Yusuke*; Takeshita, Kenji*
no journal, ,
Yin, X.; Koma, Yoshikazu; Inaba, Yusuke*; Takeshita, Kenji*
no journal, ,
The decontamination and volume reduction of Cs contaminated soil by efficient Cs removal remains a great challenge after the Fukushima Daiichi Nuclear Power Station accident. In present work, we studied the selective removal of Cs from the clay soils by treating with hydrothermal cations in a column system. The results will inspire new insights for treatment of post-accident soils in Fukushima.
Yin, X.; Koma, Yoshikazu; Inaba, Yusuke*; Takeshita, Kenji*
no journal, ,
Xu, P. G.; Suzuki, Hiroshi; Metoki, Naoto; Shiota, Yoshinori; Suzuki, Tetsuya*; Yin, F. X.*; Akita, Koichi
no journal, ,
It is well known that the neutron diffraction is suitable to evaluate the crystallographic textures of various bulk materials while the measured texture results are partially dependent on the diffractometer used. Since JAEA has several neutron diffractometers for texture measurement, including RESA, RESA-II and MUSASI (JAEA), the quantitative comparison among bulk textures of several selected samples is helpful to further optimize the measurement conditions and ensure the users to get reliable results. By proper selection of neutron beam size and collimator size, the evaluation reliability of MUSASI was improved so that it may be utilized to reliably measure neutron textures of various materials.
Liu, B. X.*; Lin, Z. M.*; Sato, Shigeo*; Xu, P. G.; Yin, F. X.*
no journal, ,