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| 文献清单:“金属回收”方向 | MDPI Recycling |
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期刊名:Recycling
期刊主页:https://www.mdpi.com/journal/recycling
还在为筛选文献而发愁?别急,这份“金属回收”方向的文献清单,也许能为你提供灵感!
1.
Trends in Extraction of Rare Earth Elements from Coal Ashes: A Review Image
煤灰中稀土元素提取技术的发展趋势:综述
https://www.mdpi.com/2313-4321/8/1/17
MDPI引用格式:
Dodbiba, G.; Fujita, T. Trends in Extraction of Rare Earth Elements from Coal Ashes: A Review.Recycling2023,8, 17.
2.
Waste Minimization of Lead Paste and Jarosite to Recover a Silver-Rich Alloy by the Pyrometallurgical Route
通过火法冶金路线实现铅膏和黄钾铁矾废物减量并回收富银合金
https://www.mdpi.com/2313-4321/9/6/119
MDPI引用格式:
Sanchez Vite, J.E.; Cruz Ramírez, A.; Flores Favela, M.E.; Romero Serrano, J.A.; Pérez Labra, M.; Gutiérrez Pérez, V.H.; Sánchez Alvarado, R.G.; Jiménez Lugos, J.C. Waste Minimization of Lead Paste and Jarosite to Recover a Silver-Rich Alloy by the Pyrometallurgical Route.Recycling2024,9, 119.
3.
Exploring the E-Waste Crisis: Strategies for Sustainable Recycling and Circular Economy Integration
探索电子废弃物危机:可持续回收与循环经济整合策略
https://www.mdpi.com/2313-4321/10/2/72
MDPI引用格式:
Quinto, S.; Law, N.; Fletcher, C.; Le, J.; Antony Jose, S.; Menezes, P.L. Exploring the E-Waste Crisis: Strategies for Sustainable Recycling and Circular Economy Integration.Recycling2025,10, 72.
4.
Closing the Loop on LIB Waste: A Comparison of the Current Challenges and Opportunities for the U.S. and Australia towards a Sustainable Energy Future
闭合锂离子电池废弃物循环:面向可持续能源未来的美国与澳大利亚当前挑战与机遇比较
https://www.mdpi.com/2313-4321/8/5/78
MDPI引用格式:
Collis, G.E.; Dai, Q.; Loh, J.S.C.; Lipson, A.; Gaines, L.; Zhao, Y.; Spangenberger, J. Closing the Loop on LIB Waste: A Comparison of the Current Challenges and Opportunities for the U.S. and Australia towards a Sustainable Energy Future.Recycling2023,8,78.
5.
Precious Metal Recovery from Waste Electrical and Electronic Equipment through Oxidative Refining
通过氧化精炼从废弃电气和电子设备中回收贵金属
https://www.mdpi.com/2313-4321/8/5/80
MDPI引用格式:
Park, E.; Kim, M.; Pin, M.-W.; Park, H.; Kim, Y.-H. Precious Metal Recovery from Waste Electrical and Electronic Equipment through Oxidative Refining.Recycling2023,8, 80.
6.
Multi-Layer Ceramic Capacitors in Lighting Equipment: Presence and Characterisation of Rare Earth Elements and Precious Metals
照明设备中的多层陶瓷电容器:稀土元素与贵金属的存在及表征
https://www.mdpi.com/2313-4321/8/6/97
MDPI引用格式:
Sideris, K.M.; Fragoulis, D.; Stathopoulos, V.N.; Sinioros, P. Multi-Layer Ceramic Capacitors in Lighting Equipment: Presence and Characterisation of Rare Earth Elements and Precious Metals.Recycling2023,8, 97.
7.
Advancements in Sustainable Electrolytic Manganese Recovery: Techniques, Mechanisms, and Future Trends
可持续电解锰回收的进展:技术、机理与未来趋势
https://www.mdpi.com/2313-4321/10/1/26
MDPI引用格式:
Li, Y.; Pan, X.; Amini Horri, B. Advancements in Sustainable Electrolytic Manganese Recovery: Techniques, Mechanisms, and Future Trends.Recycling2025,10, 26.
8.
Recycling of Rhenium from Superalloys and Manganese from Spent Batteries to Produce Manganese(II) Perrhenate Dihydrate
从高温合金中回收铼、从废旧电池中回收锰以制备高铼酸锰(Ⅱ)二水合物
https://www.mdpi.com/2313-4321/9/3/36
MDPI引用格式:
Leszczyńska-Sejda, K.; Palmowski, A.; Ochmański, M.; Benke, G.; Grzybek, A.; Orda, S.; Goc, K.; Malarz, J.; Kopyto, D. Recycling of Rhenium from Superalloys and Manganese from Spent Batteries to Produce Manganese(II) Perrhenate Dihydrate.Recycling2024,9, 36.
9.
Electrolytic Recovery of Indium from Copper Indium Gallium Selenide Photovoltaic Panels: Preliminary Investigation of Process Parameters
从铜铟镓硒(CIGS)光伏组件中电解回收铟:工艺参数的初步研究
https://www.mdpi.com/2313-4321/10/3/86
MDPI引用格式:
Gajec, M.; Król, A.; Holewa-Rataj, J.; Kukulska-Zaj?c, E.; Kuchta, T. Electrolytic Recovery of Indium from Copper Indium Gallium Selenide Photovoltaic Panels: Preliminary Investigation of Process Parameters.Recycling2025,10, 86.
10.
Selective Recovery of Tin from Electronic Waste Materials Completed with Carbothermic Reduction of Tin (IV) Oxide with Sodium Sulfite
从电子废弃物中选择性回收锡:结合锡(Ⅳ)氧化物与亚硫酸钠的碳热还原
https://www.mdpi.com/2313-4321/9/4/54
MDPI引用格式:
Hyk, W.; Kitka, K. Selective Recovery of Tin from Electronic Waste Materials Completed with Carbothermic Reduction of Tin (IV) Oxide with Sodium Sulfite.Recycling2024,9, 54.
11.
Sustainable Resource Management: The End of Nickel Mining?
可持续资源管理:镍矿开采的终结?
https://www.mdpi.com/2313-4321/9/6/102
MDPI引用格式:
Nell, K.; Valenta, R.K.; Forbes, G.; Yahyaei, M.; Ilyas, H.M.A. Sustainable Resource Management: The End of Nickel Mining?Recycling2024,9, 102.
12.
Global Supply of Secondary Lithium from Lithium-Ion Battery Recycling
通过锂离子电池回收获得的二次锂的全球供应
https://www.mdpi.com/2313-4321/10/4/122
MDPI引用格式:
Kresse, C.; Bookhagen, B.; Buarque Andrade, L.; Frenzel, M. Global Supply of Secondary Lithium from Lithium-Ion Battery Recycling.Recycling2025,10, 122.
13.
Concentration of Silver from Recycling of Fine Powder of Wasted Videogame Printed Circuit Boards through Reverse Froth Flotation and Magnetic Separation Processes
通过反浮选与磁选工艺从废弃电子游戏印刷电路板细粉中富集银
https://www.mdpi.com/2313-4321/9/4/60
MDPI引用格式:
Flores-Campos, R.; Estrada-Ruiz, R.H.; Rodríguez-Reyes, M.; Martínez-Carrillo, D.; Martínez-Luévanos, A. Concentration of Silver from Recycling of Fine Powder of Wasted Videogame Printed Circuit Boards through Reverse Froth Flotation and Magnetic Separation Processes.Recycling2024,9, 60.
14.
Waste SMD LEDs from End-of-Life Residential LED Lamps: Presence and Characterisation of Rare Earth Elements and Precious Metals as a Function of Correlated Colour Temperature
报废居民用 LED 灯中的 SMD LED 废弃物:稀土元素与贵金属的存在及其随相关色温变化的表征
https://www.mdpi.com/2313-4321/9/6/128
MDPI引用格式:
Sideris, K.M.; Katsiris, I.; Fragkoulis, D.; Stathopoulos, V.N.; Sinioros, P. Waste SMD LEDs from End-of-Life Residential LED Lamps: Presence and Characterisation of Rare Earth Elements and Precious Metals as a Function of Correlated Colour Temperature.Recycling2024,9, 128.
15.
Effective Recovery of Gold from Chloride Multi-Metal Solutions Through Anion Exchange
通过阴离子交换从氯化物多金属溶液中有效回收黄金
https://www.mdpi.com/2313-4321/10/2/64
MDPI引用格式:
Neto, I.F.F.; Silva, M.A.D.; Soares, H.M.V.M. Effective Recovery of Gold from Chloride Multi-Metal Solutions Through Anion Exchange.Recycling2025,10,64.
Recycling期刊介绍
主编:Michele John, Curtin University, Australia
期刊发表资源回收、再利用、废弃物管理与循环经济等相关领域的原始性、首创性成果,主题涵盖工业资源回收的创新工艺、工具与方法学,废弃物处理技术,循环经济,零废弃项目实践,回收利用相关政策,回收经济学,回收过程的环境与社会影响,以及产品 (生态) 设计与回收等方向。目前已被ESCI (Web of Science)、Scopus、FSTA、DOAJ等数据库收录。
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2024 Impact Factor
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4.6
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2024 CiteScore
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8.9
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Time to First Decision
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18.9 Days
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Acceptance to Publication
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3.8 Days
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