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论文  Publication

2024

1. Xiaotian CHENG, Xiao YANG*, “Electrochemical silicification of Mo in molten CaCl2-CaSiO3 enhances high-temperature oxidation”, Corrosion Science, 227 (2024), 111746

2. Yao YU, Xiao YANG*, “Dissolution of Solid FePO4 in Molten CaCl2”, Metallurgical and Materials Transactions B, In Press

3. Guanting LIU, Yuanjia Ma, Xiao YANG*, “Cleaner extraction of white phosphorus from phosphate rock through molten salt electrolysis”, Journal of Cleaner Production, 434 (2024), 140374

2023

1. Jingdong HUANG, Guangqiang LI, Xiao YANG*, “Chlorination of ZnFe2O4 by Molten MgCl2: Effect of Adding CaCl2”, Journal of Sustainable Metallurgy, 9 (2023), 1253-1266. (Editor's Choice, Cover article)

2. Guanting LIU, Yuxiang Zhong, Xiao YANG*, “Electrolysis of Dissolved Phosphate in Molten CaCl2 Prepares High-Purity White Phosphorus”, Metallurgical and Materials Transactions B, 54 (2023), 2277-2282.

3. Linfei ZHAO, Zhangfu YUAN, Bowen MA, Xiaohan DING, Yue TIAN, Xiao YANG, "Regulation of three-dimensional hydrophobic state of copper dendrite adjusts the distribution of liquid products from electrochemical reduction of CO2", Applied Surface Science, 628 (2023), 157369.

4. Yaohui YU, Chuanming DU*, Xiao YANG*, “Recovery of Phosphorus from Steelmaking Slag and Phosphate Tailings by a Collaborative Processing Method”, Separation and Purification Technology, (2023), 123499.

5. Yuxiang ZHONG, Guanting LIU, Xiao YANG*, "Isolating Elemental Phosphorus from Sewage Sludge Ash by Electrochemistry", Resources, Conservation & Recycling,190(2023), 106815.

6. Xiaotian CHENG, Xiao YANG*, “Dissolution of Calcium Silicates in Molten CaCl2”, Metallurgical and Materials Transactions B, 53 (2023), 192-202.

7. Dan YU, Fei LIU, Changdong ZOU, Xiao YANG*, "Municipal green waste promotes iron release from steelmaking slag in water", Resources, Conservation & Recycling, 188(2023), 106722.

2022

1. Yuxiang ZHONG, Zhong CHEN, Xiao YANG*, "Electrochemistry Isolates Elemental Phosphorus from Mg3(PO4)2", Journal of The Electrochemical Society, 169 (2022), 103503.

2. Yaohui YU, Chuanming DU*, Jingkun YU, Xiao YANG*, “Effect of BOF Slag Modification on the Dissolution Behavior of Phosphorus from Practical Dephosphorization Slag”, Metallurgical and Materials Transactions B, 53 (2022), 3635.

3. Jingdong HUANG, Il SOHN, Youngjo KANG, Xiao YANG*, “Separation of Zn and Fe in ZnFe2O4 by reaction with MgCl2”, Metallurgical and Materials Transactions B, 53 (2022), 2634-2646.

4. Yuanjia MA, Kouji YASUDA, Takayuki YAMAMOTO, Xiao YANG and Toshiyuki NOHIRA*, “Electrodeposition of Si from Silicate Ions at Graphite and Liquid Zn Electrodes in Molten CaCl2”, Journal of The Electrochemical Society, 169 (2022), 052506.

5. Hiroyuki MATSUURA, Xiao YANG*, Guangqiang LI, Zhanfu YUAN, Fumitaka TSUKIHASHI, “Recycling of ironmaking and steelmaking slags in Japan and China”, International Journal of Minerals, Metallurgy and Materials, 29 (2022), 739-749.

6. Yuki NISHIOKA, Xiao YANG*, Fumitaka TSUKIHASHI, “Chlorination of ZnFe2O4 in Molten MgCl2-KCl”, ISIJ International, 62 (2022), 48-55.

2021

1. Yuxiang ZHONG, Xiao YANG*, “Dissolution Behavior of Solid Ca3(PO4)2 in molten CaCl2”, Metallurgical and Materials Transactions B, 52 (2021), 3515-3523.

 

2. Xiao YANG*, Yuta SAKURAI, Yuta HISAKA and Fumitaka TSUKIHASHI, “Recycling of Steelmaking Slag in Seawater as an Iron Supplier: Effects of Slag Composition, Carbonation and Usage of Gluconic Acid”, Materials Transactions, 62 (2021), 1253-1262.

2020

1. Xiao YANG* and Toshiyuki NOHIRA, “A New Concept for Producing White Phosphorus: Electrolysis of Dissolved Phosphate in Molten Chloride”, ACS Sustainable Chemistry & Engineering, 8 (2020), 13784-13792.

加入西湖大学之前
Before joining Westlake

1. Xiao YANG*, Toshiyuki NOHIRA and Il SOHN, “Electrochemical Preparation of Water-Reactive Silicon with Potential Applications in Hydrogen Generation”, Journal of the Electrochemical Society, 167 (2020), 022510.

 

2. Yuta SAKURAI, Xiao YANG*, Yuta HISAKA and Fumitaka TSUKIHASHI, “Nutrient Supply to Seawater from Steelmaking Slag: The Coupled Effect of Gluconic Acid Usage and Slag Carbonation”, Metallurgical and Materials Transactions B, 51 (2020), 1039-104.

 

3. X. HUANG, B. LI, Z. LIU, XiaoYANG and F. TSUKIHASHI, “Numerical Study on the Removal and Distribution of Non-metallic Inclusions in Electroslag Remelting Process”, International Journal of Heat and Mass Transfer, 135 (2019), 1300-1311.

 

4. R. NIU, B. LI, Z. LIU, L. BU, X. LI, Xiao YANG and F. TSUKIHASHI, “Experimental Investigation of Solidification in the Cast Mold with a Consumable Cooler Introduced Inside”, Metals, (9) 2019, 55.

 

5. J. PENG, H. YIN, J. ZHAO, Xiao YANG, A. J. BARD and D. R. SADOWAY, “Liquid-tin-assisted Molten Salt Electrodeposition of Photoresponsive N-type Silicon Films”, Advanced Functional Materials, 28 (2018), 1703551.

 

6. M. ZHONG, Xiao YANG, K. YASUDA, T. HOMMA and T. NOHIRA, “Effect of Si Addition on the Electrochemical Reduction Rate of SiO2 granules in Molten CaCl2”, Metallurgical and Materials Transactions B, 49 (2018), 341-348.

 

7. Xiao YANG, L. JI, X. ZOU, T. LIM, J. ZHAO, E. T. YU and A. J. BARD, “Toward Cost-effective Manufacturing of Si Solar Cells: Electrodeposition of High Quality Si Films in a CaCl2-based Molten Salt”, Angewandte Chemie International Edition, 129 (2017), 15274-15278.

 

8. X. ZOU, L. JI, Xiao YANG, T. LIM, E. T. YU and A. J. BARD, “Electrochemical Formation of a p-n Junction on Thin Film Silicon Deposited in Molten Salt”, Journal of the American Chemical Society, 139 (2017), 16060-16063.

 

9. Xiao YANG, K. YASUDA, T. NOHIRA, R. HAGIWARA and T. HOMMA, “Cathodic Potential Dependence of Electrochemical Reduction of SiO2 Granules in Molten CaCl2”, Metallurgical and Materials Transactions E, 3 (2016), 145-155.

 

10. Y. KATASHO, Xiao YANG, K. YASUDA and T. NOHIRA, “Electrochemical Reduction Behavior of Borosilicate Glass in Molten CaCl2”, Journal of the Electrochemical Society, 163 (2016), D622-D627.

 

11. Xiao YANG, K. YASUDA, T. NOHIRA, R. HAGIWARA and T. HOMMA, “The Role of Granule Size on the Kinetics of Electrochemical

Reduction of SiO2 Granules in Molten CaCl2”, Metallurgical and Materials Transactions B, 47 (2016), 787-797.

 

12. T. HOMMA, N. MATSUO, Xiao YANG, K. YASUDA, Y. FUKUNAKA and T. NOHIRA, “High Purity Silicon Materials Prepared through Wet-chemical and Electrochemical Approaches”, Electrochimica Acta, 179 (2015), 512-518.

 

13. Xiao YANG, K. YASUDA, T. NOHIRA, R. HAGIWARA and T. HOMMA, “Reaction Behavior of Stratified SiO2 Granules during Electrochemical Reduction in Molten CaCl2”, Metallurgical and Materials Transactions B, 45 (2014), 1337-1344.

 

14. Xiao YANG, K. YASUDA, T. NOHIRA, R. HAGIWARA and T. HOMMA, “Kinetic Characteristics of Electrochemical Reduction of SiO2 Granules in Molten CaCl2”, Journal of the Electrochemical Society, 161 (2014), D3116-D3119.

 

15. H. MATSUURA, T. HAMANO, M. ZHONG, X. GAO, Xiao YANG and F. TSUKIHASHI, “Energy and Resource Saving of Steelmaking Process: Utilization of Innovative Multi-phase Flux during Dephosphorization Process”, JOM, 66 (2014), 1572-1580.

 

16. T. TOBA, K. YASUDA, T. NOHIRA, Xiao YANG, R. HAGIWARA, K. ICHITSUBO and T. HOMMA, “Electrolytic Reduction of SiO2 Powder in Molten CaCl2”, Electrochemistry, 81 (2013), 559-565.

 

17. Xiao YANG, F. SUN, F. LIU, J. YANG, K, CHENG and J. WANG, “Optimization of Low Phosphorus Steel Production with Double Slag Process in BOF at ShaSteel”, Journal of Iron and Steel Research International, 20 (2013), 41-47.

 

18. F. SUN, T. GUAN, F. LIU, K, CHENG, J. WANG and Xiao YANG, “Research and Practice on Converter Process of Slag Reduction”, Steelmaking, 29 (2013), 6-12.

 

19. N. TAKEICHI, J. YAN, Xiao YANG, K. SHIDA, H. TANAKA, T. KIYOBAYASHI, N. KURIYAMA and T. SAKAI, “Ca7Ge-type Hydride Mg6VNaxHy (0 ≤ x ≤ 1): High Pressure Synthesis, Synchrotron X-ray Analysis and Hydrogen Storage Properties”, Journal of Power Sources, 210 (2012), 158-162.

 

20. Xiao YANG, N. TAKEICHI, K. SHIDA, H. TANAKA, N. KURIYAMA and T. SAKAI, “Novel Mg–Zr–A–H (A = Li, Na) Hydrides Synthesized by a High Pressure Technique and Their Hydrogen Storage Properties”, Journal of Alloys and Compounds, 509 (2011), 1211-1216.

 

21. Xiao YANG, H. MATSUURA and F. TSUKIHASHI, “Dissolution Behavior of Solid 5CaO·SiO2·P2O5 in CaO-SiO2-FeOx Slag”, Materials Transactions, 51(2010), 1094-1101.

 

22. Xiao YANG, H. MATSUURA and F. TSUKIHASHI, “Reaction Behavior of P2O5 at the Interface between Solid 2CaO·SiO2 and Liquid CaO-SiO2-FeOx-P2O5 Slag Saturated with Solid 5CaO·SiO2·P2O5 at 1573 K”, ISIJ International, 50 (2010), 702-711.

 

23.  Xiao YANG, H. MATSUURA and F. TSUKIHASHI, “Condensation of P2O5 at the Interface between 2CaO·SiO2 and CaO-SiO2-FeOx-P2O5 Slag”, ISIJ International, 49 (2009), 1298-1307.

 

24. Xiao YANG, H. MATSUURA and F. TSUKIHASHI, “Formation Behavior of Phosphorous Compounds at the Interface between Solid 2CaO·SiO2 and FeOx–CaO–SiO2–P2O5 Slag at 1673K”, Tetsu-to-Hagane, 95 (2009), A268-274.

 

25. R. SAITO, H. MATSUURA, K. NAKASE, Xiao YANG and F. TSUKIHASHI, “Microscopic Formation Mechanisms of P2O5-containing Phase at the Interface between Solid CaO and Molten Slag”, Tetsu-to-Hagane, 95 (2009), A258-A267.

 

26. Z. YUAN, Xiao YANG and Z. LU, “Jet Behavior and Metallurgical Performance of Innovated Double-parameter Oxygen Lance in BOF”, Journal of Iron and Steel Research International, 14 (2007), 1-6.

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