ResearchGate: https://www.researchgate.net/profile/Liuqing-Huang
[1] Weinan Chen, Liuqing Huang*, Mingjing Li, Zexi Huang, Haijun Wang, Chunjia Liu*, Xuetao Luo. From waste to wealth: Valuable metals recovered from waste tungsten leaching residue by a smelting reduction process using CaO-Fe capture agent. Journal of Cleaner Production. 2023, 422, 138629.
[2] Qipeng Zou, Liuqing Huang*, Weinan Chen, Guangyu Chen, Yan Li, Mengchen Li, Chentong Zhang, Xuetao Luo. Recycling of silicon from waste PV diamond wire sawing silicon powders: A strategy of Na2CO3-assisted pressure-less sintering and acid leaching. Waste Management. 2023,168, 107-115.
[3] Huaixiang Yang, Yan Li, Weinan Chen, Chentong Zhang, Liuqing Huang*, and Xuetao Luo*. Scalable Synthesis of a Si/C Composite Derived from Photovoltaic Silicon Kerf Waste toward Anodes for High-Performance Lithium-Ion Batteries. Energy Fuels. 2024, 38(6), 5568–5579.
[4] Liguang Wang, Yang Rui, Wang Sheng, Yinshuang Ma, Cheng Ma, Weinan Chen, Qipeng Zou, Pengxuan Du, Liuqing Huang*, Xuetao Luo. Influence Mechanism of Crucible Rotation Rates on the Flow Field and Oxygen Concentration of the Semiconductor-Grade Czochralski Monocrystalline Silicon Melt under Transverse Magnetic Field. Journal of Synthetic Crystals, 2023, 52(9), 1641-1650.
[5] Yang Rui, Zhongbao Wang, Wang Sheng, Haoran Ni, Huan Xiong, Qipeng Zou, Weinan Chen, Liuqing Huang*, Xuetao Luo. Effect of Heat Shield Structure on the Distribution of Oxygen Content in 200 mm Semiconductor-Grade Czochralski Monocrystalline Silicon. Journal of Synthetic Crystals, 2023, 52(6), 1110-1119.
[6] Liuqing Huang*, Chunjia Liu, Zexi Huang, Weinan Chen, Haijun Wang, Shiliang Wang. Simultaneous recovery of valuable metals W, Co, Ta, and Nb from tungsten leaching residue by sodium-based slag refining, Minerals Engineering. 2023, 203, 108334.
[7] Guangyu Chen, Yan Li, Liuqing Huang*, Chentong Zhang, Xuetao Luo*. High-value recycling of photovoltaic silicon waste: Accelerated removal of impurity boron through Na3AlF6-enhanced slag refining. Separation and Purification Technology, 2022, 289, 120732.
[8] Chentong Zhang, Liuqing Huang*, Abdolkarim Danaei, Guangyu Chen, Liuying Huang, Xuetao Luo. Effect of impurity trappers on the distribution and removal of phosphorus from Si with Si-Cu solvent. Materials Letters, 2022, 308, 131126.
[9] Sridevi Thomas*, Liuqing Huang, Mansoor Barati. A Review of Slag Refining of Crude Silicon. JOM. 2021, 73, 260-281.
[10] Chentong Zhang, Wang Sheng, Liuqing Huang*, Sa Zhang, Yaohao Zhang, Huaxian Cai, Jinshui Meng, Xuetao Luo*. Vanadium as an impurity trapper for purification of metallurgical-grade silicon. Separation and Purification Technology. 2021, 260, 118199.
[11] Xian Yue, Liuqing Huang*, Liuying Huang, Xuetao Luo*. A Sustainable Strategy for Medium-Density Fiberboards Preparation from Waste Hybrid Pennisetum Straws. Waste and Biomass Valorization. 2021.
[12] Guangyu Chen, Wang Sheng, Liuqing Huang*, Yaohao Zhang, Liuying Huang, Xuetao Luo*. Application of Pressure-less Sintering and Dynamic-Slag Treatment to Recover Diamond Wire Saw Silicon Powder. ACS Sustainable Chemistry & Engineering. 2020, 8(51), 19023-19031.
[13] Ying Xu, Xiongbiao Ye, Yiwei Qiu, Chuanhai Gan, Liuqing Huang*, Xueyuan Tang, Xuetao Luo*. A Novel Co3O4/MnO2/C Electrode with Hierarchical Heterostructure for High-performance Lithium-Ion Batteries. ChemistrySelect, 2020, 5, 13831-13836.
[14] Yaohao Zhang, Wang Sheng, Liuqing Huang*, Sa Zhang, Guangyu Chen, Chentong Zhang, Huaxian Cai, Jinshui Meng, Xuetao Luo*. Preparation of low-boron silicon from diamond wire sawing waste by pressure-less sintering and CaO-SiO2 slag treatment. ACS Sustainable Chemistry & Engineering. 2020, 8(31), 11755-11763.
[15] Yaohao Zhang, Wang Sheng, Liuqing Huang*, Chentong Zhang, Xueyuan Tang, Xuetao Luo*. Recovery of silicon kerf waste from diamond wire sawing by two-step sintering and acid leaching method. Journal of Cleaner Production. 2020, 265, 121911.
[16] Liuqing Huang, Ming Fang, Danaei Abdolkarim, Sridevi Thomas, Xuetao Luo*, Mansoor Barati. A metallurgical route to upgrade silicon kerf derived from diamond-wire slicing process. Vacuum. 2019, 163, 164-171.
[17] Liuqing Huang, Juan Chen, Ming Fang, Danaei Abdolkarim, Sridevi Thomas, Xuetao Luo*, Mansoor Barati. Clean enhancing elimination of boron from silicon kerf using Na2O-SiO2 slag treatment. Journal of Cleaner Production. 2018, 186, 718-725.
[18] Liuqing Huang, Danaei Abdolkarim, Sridevi Thomas, Xuetao Luo*, Mansoor Barati. Solvent extraction of phosphorus from metallurgical-grade silicon by Si-Cu refining system with calcium addition. Separation and Purification Technology. 2018, 204, 205-212.
[19] Liuqing Huang, Juan Chen, Danaei Abdolkarim, Sridevi Thomas, Liuying Huang, Xuetao Luo*, Mansoor Barati. Effect of Ti addition on the boron distribution and microstructural evolution in Si-Cu alloy. Journal of Alloys and Compounds. 2017, 734, 235-242.
[20] Liuqing Huang, Juan Chen, Xiaobing Yang, Jintang Li, Xuetao Luo*. Synthesis of mesoporous porous silicon from industrial waste sodium-based slag. Materials Letters. 2018, 228, 187-190.
[21] Liuqing Huang, Huixian Lai, Chuanhai Gan, Huaping Xiong, Pengfei Xing, Xuetao Luo*. Separation of boron and phosphorus from Cu-alloyed metallurgical grade silicon by CaO–SiO2–CaCl2 slag treatment. Separation and Purification Technology, 2016, 170, 408-416.
[22] Liuqing Huang, Huixian Lai, Chenghao Lu, Ming Fang, Wenhui Ma, Pengfei Xing, Jintang Li, Xuetao Luo*. Enhancement in extraction of boron and phosphorus from metallurgical grade silicon by copper alloying and aqua regia leaching. Hydrometallurgy, 2016, 161, 14-21.
[23] Liuqing Huang, Huixian Lai, Chenghao Lu, Chuanhai Gan, Ming Fang, Pengfei Xing, Jintang Li, Xuetao Luo*. Segregation behavior of iron in metallurgical grade silicon during Si-Cu solvent refining. Vacuum, 2016, 129, 38-44.
[24] Liuqing Huang, Huixian Lai, Chenghao Lu, Wenhui Ma, Pengfei Xing, Jintang Li, Xuetao Luo*. Evaporation behavior of phosphorus from metallurgical grade silicon via calcium-based slag treatment and hydrochloric acid leaching. Journal of Electronic Materials, 2015, 45(1), 541-552.
授权专利:
[1] 一种回收太阳能级硅金刚线切割废料的方法. ZL202110526430.7
[2] 一种废钨渣中有价金属的回收方法. ZL202111625522.7
[3] 一种含有La、Ce共掺杂的NCMA四元前驱体制备方法. ZL2021106017468
[4] 一种聚酰亚胺覆盖膜激光切割除碳装置及除碳方法. ZL202110156184.0
[5] 一种稳定覆铜板电镀铜缩的方法. ZL202110666559.8
[6] 一种叠瓦光伏组件. ZL201920520270.3
[7] 一种双面发电光伏组件的安装支架. ZL201920525954.2
[8] 一种晶硅太阳能电池用的叠层减反射膜. ZL201920583284.X
[9] 一种采用硅铝钙合金精炼及定向凝固制备多晶硅的方法. ZL201811221446.1
[10] 一种太阳能电池片焊接加热和焊带固定的方法及装置. ZL201610431856.3
[11] 太阳能电池片焊带自动清洗与助焊剂涂抹的方法及装置. ZL201610432012.0
[12] 一种活化渣剂除硼的方法及其装置. ZL201511027460.4
[13] 一种利用工业废渣和废酸制备吸附材料的方法及其装置. ZL201511027442.6
[14] 一种高纯硅的精炼装置及其方法. ZL201310342874.0
[15] 一种硅粉的制备方法. ZL201310026873.5
[16] 一种由硅矿石制备高纯硅的装置及其制备方法. ZL201310343089.7
[17] 一种片状硅的制备方法. ZL201210546258.2
[18] 一种硅球制备装置及其制备方法. ZL201210546204.6
