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个人简介

教育背景 2017.04-2019.09, 东京工业大学, 核能工程, 博士 2015.10-2017.03, 东京工业大学, 核能工程, 硕士 2012.09-2015.03, 上海交通大学, 核能与核技术工程, 硕士 2008.09-2012.06, 四川大学, 热能与动力工程, 本科 工作经历 2020.04-2023.05, 东北大学(日本), 量子科学与能源工程, 助理教授 2019.10-2020.03, 东京工业大学,先导原子力研究所,特别研究员(JSPS-PD) 科研项目 2023.04-2026.03 日本学术振兴会, 科研费基盘研究C类(23K04627),负责人 2020.04-2022.03 日本学术振兴会, 科研费启动资金(20K22320),负责人 2018.04-2020.03 日本学术振兴会, 特别研究员奖励费(18J13638),负责人 2022.04-2027.03 日本学术振兴会, 科研费基盘研究A类(22H00307),子课题负责人 2020.07-2023.01 日本原子力研究开发机构,共同研究项目(J200001507), 子课题负责人 2020.06-2023.03 日本东北放射线科学中心, 共同研究项目(J200000973), 子课题负责人 2016.04-2021.03 日本学术振兴会, 科研费基盘研究A类(16H02444),参与 2012.09-2015.08 国家自然科学基金,国际(地区)合作与交流项目(21261140335),参与 荣誉奖励 2021.05 Analytical Sciences杂志热点论文奖励 2019.03 第四届材料化学科学国际会议最佳支持 2011.10 国家奖学金

研究领域

核化学工程 乏燃料后处理 核素分离回收

近期论文

查看导师新发文章 (温馨提示:请注意重名现象,建议点开原文通过作者单位确认)

[1] Hao Wu, Naoki Osawa, Masahiko Kubota, Seong-Yun Kim†, Preparation of a Covalent Organic Framework-Modified Silica-Gel Composite for the Effective Adsorption of Pd(II), Zr(IV) and Mo(VI) From Nitric Acid Solution. Nuclear Engineering and Technology, 2023, accepted. [2] Hao Wu, Tatsuya Kudo, Seong-Yun Kim†, Misako Miwa, Shigeo Matsuyama. Recovery of cesium ions from seawater using a porous silica-based ionic liquid impregnated adsorbent. Nuclear Engineering and Technology, 2022, 54, 1597-1605. [3] Hao Wu, Seong-Yun Kim†. Adsorption Behaviors of a 2D Covalent Organic Framework Toward Pd(II) in Hydrochloric Acid Solution. Journal of Ion Exchange, 2022, 33, 32-35. [4] Hao Wu, Seong-Yun Kim†, Tatsuya Ito, Misako Miwa, Shigeo Matsuyama. One-pot synthesis of silica-gel-based adsorbent with Schiff base group for the recovery of palladium ions from simulated high-level liquid waste. Nuclear Engineering and Technology, 2022, 54, 3641-3649. [5] Hao Wu, Taiga Kawamura, Seong-Yun Kim†. Adsorption and separation behaviors of Y(III) and Sr(II) in acid solution by a porous silica based adsorbent. Nuclear Engineering and Technology, 2021, 53, 3352-3358. [6] Hao Wu, Seong-Yun Kim†. Adsorption performances of an acid stable 2D covalent organic framework towards palladium(II) in simulated high level liquid waste. Analytical Sciences, 2021, 37, 645-647. [7] Hao Wu, Naoki Osawa, Masahiko Kubota, Seong-Yun Kim†. Adsorption and separation behavior of palladium(II) from simulated high-level liquid waste using a novel silica-based adsorbent. Radiochimica Acta, 2021, 109, 367-375. [8] Hao Wu, Masahiko Kubota, Naoki Osawa, Seong-Yun Kim†. Adsorption Behaviors of Palladium(II) in Simulated High-Level Liquid Waste using 2,2’-[(2-ethylhexyl)imino]bis[N,N-bis(2-ethylhexyl)acetamide]-impregnated Adsorbent. Journal of Ion Exchange, 2021, 32, 8-14. [9] Hao Wu, Seong-Yun Kim†, Tadayuki Takahashi, Haruka Oosugi, Tatsuya Ito, Kiyoshi Kanie. Extraction behaviors of platinum group metals in simulated high-level liquid waste by a hydrophobic ionic liquid bearing an amino moiety. Nuclear Engineering and Technology, 2021, 53, 1218-1223. [10] Hao Wu, Tatsuya Kudo, Tadayuki Takahashi, Tatsuya Ito, Seong-Yun Kim†. Impregnation of covalent organic framework into porous silica support for the recovery of palladium ions from simulated high-level liquid waste. Journal of Radioanalytical and Nuclear Chemistry, 2021, 330, 1065-1074. [11] Hao Wu, Seong-Yun Kim†, Misako Miwa, Shigeo Matsuyama. Synergistic adsorption behavior of a silica-based adsorbent toward palladium, molybdenum, and zirconium from simulated high-level liquid waste. Journal of Hazardous Materials, 2021, 411, 125136. [12] Hao Wu†, Masahiko Nakase, Yusuke Inaba, Miki Harigai, Tohru Kobayashi, Tsuyoshi Yaita, Kenji Takeshita, Seong-Yun Kim. Complexation studies of Eu(III) by a novel soft N and hard O donor combined ligand including N,N,N’,N’-tetrakis(2-pyridylmethyl)-1,3-diaminopropane-2-amide structure: UV-vis titration, X-ray crystallography, EXAFS spectroscopy analysis. Solvent Extraction Research and Development, Japan, 2021, 28, 69-77. [13] Hao Wu, Masahiko Kubota, Naoki Osawa, Seong-Yun Kim†. Adsorption and separation behavior of palladium(II) by a silica-based hybrid donor adsorbent from simulated high-level liquid waste. Journal of Radioanalytical and Nuclear Chemistry, 2020, 326, 1323-1331. [14] Hao Wu, Naoki Oosawa, Masahiko Kuboda, Seong-Yun Kim†. Adsorption behaviors of palladium ion from nitric acid solution by a silica-based hybrid donor adsorbent. Analytical Sciences, 2020, 36, 1541-1546. [15] Hao Wu†, XiaoXia Zhang, XiangBiao Yin, Inaba Yusuke, Harigai Miki, Kenji Takeshita. Extraction behavior of lanthanides by a novel ionic liquid including N,N,N’,N’-tetrakis(2-pyridyl-methyl)-1,3-diaminopropane-2-amido structure: A soft–hard donor combined strategy. Chemistry Letters, 2018, 47, 732-735. [16] Hao Wu†, XiaoXia Zhang, XiangBiao Yin, Inaba Yusuke, Harigai Miki, Kenji Takeshita. Selective separation of cadmium (II) from zinc (II) by a novel hydrophobic ionic liquid including N,N,N׳,N׳-tetrakis(2-methylpyridyl)-1,2-phenylenediamine-4-amido structure: A hard-soft donor combined method. Dalton Transactions, 2018, 47, 10063-10070. [17] Hao Wu, Yan Wu†, Zi Chen, YueZhou Wei. Adsorption behaviors of iodide anion on silver loaded microporous silicas. Nuclear Science and Techniques, 2015, 26, 030301. [18] Naoki Osawa, Masahiko Kubota, Hao Wu, Seong-Yun Kim†, Development of N,N,N′,N′-Tetra-2-Ethylhexyl-Thiodiglycolamide Silica-Based Adsorbent to Separate Useful Metals from Simulated High-Level Liquid Waste. Journal of chromatography A, 2022, 1678, 463353. [19] Taiga Kawamura, Tatsuya Kudo, Tatsuya Ito, Hao Wu, Seong-Yun Kim†. Adsorption behavior of Sr and Ba using TDS-impregnated microporous silica-based adsorbents in nitric acid solution. Journal of Ion Exchange, 2022, 33, 8-16. [20] Masahiko Kubota, Hao Wu, Seong-Yun Kim†. Combination of N’-N’-di-n-hexyl-thiodiglycolamide and 2,2’-[(2-ethylhexyl)imino]bis[N,N-bis(2-ethylhexyl) acetamide] for the enhanced adsorption of palladium ions from simulated high-level liquid waste. Journal of Radioanalytical and Nuclear Chemistry, 2022, 331, 1731-1740. [21] Naoki Osawa, Masahiko Kubota, Hao Wu, Seong-Yun Kim†. Adsorption and separation behavior of Pd(II) from simulated high-level liquid waste using N,N,N’,N’-tetra-2-ethylhexyl-thiodiglycolamide a silica-based adsorbent. Separation Science and Technology, 2022, 57, 48-59. [22] Taiga Kawamura, Hao Wu, Seong-Yun Kim†. Adsorption and Separation Behavior of Strontium and Yttrium using a Silica-based bis(2-ethylhexyl) hydrogen phosphate Adsorbent. Journal of Radioanalytical and Nuclear Chemistry, 2021, 329, 1001-1009. [23] Naoki Osawa, Seong-Yun Kim†, Tatsuya Ito, Hao Wu, Effect of adding dodecanol as modifier to N,N,N′,N′-tetra-n-hexyl-3,6-dithiaoctane-1,8-diamide silica-based adsorbent on the adsorption behaviors of platinum-group metals and other metals from simulated high-level liquid waste. Radiochimica Acta, 2021, 109, 867-876. [24] Seong-Yun Kim†, Tadayuki Takahashi, Hao Wu, Selective separation of trivalent europium (III) from americium (III) using N,N′-Dimethyl-N,N′-di-2-phenylethyl-diglycol Amide (MPEDGA) extractant in ionic liquid. Solvent Extraction Research and Development, Japan, 2021, 28, 49-57. [25] Xiangbiao Yin†, Xinpeng Wang, Hao Wu, Hideharu Takahashi, Yusuke Inaba, Toshihiko Ohnuki, Kenji Takeshita, Effects of NH4+, K+, Mg2+, and Ca2+ on the Cesium Adsorption/Desorption in Binding Sites of Vermiculitized Biotite. Environmental Science & Technology, 2017, 51, 13886-13894. [26] Xiangbiao Yin†, Xinpeng Wang, Hao Wu, Toshihiko Ohnuki, Kenji Takeshita. Enhanced desorption of cesium from collapsed interlayer regions in vermiculite by hydrothermal treatment with divalent cations. Journal of Hazardous Materials, 2017, 326, 47-53.

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