Application of Ionic Liquids on Rare Earth Green Separation and Utilization By Ji Chen

Free download Application of Ionic Liquids on Rare Earth Green Separation and Utilization By Ji Chen
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Ji Chen
Table of Contents in Application of Ionic Liquids on Rare Earth Green Separation and Utilization By Ji Chen
Part I: Introduction
The opening section introduces the fascinating relationship between ionic liquids and rare earth elements, highlighting the critical role ionic liquids play in the separation, extraction, and utilization of these elements. Ji Chen and Jiangling Gao provide an overview of the field, focusing on how ionic liquids have emerged as innovative solutions to challenges associated with rare earth processing. Rare earth elements, known for their significance in technology and industry, require advanced techniques for efficient recovery and sustainable utilization. Ionic liquids, with their unique chemical and physical properties, have proven to be ideal candidates in this context, offering advantages such as reduced environmental impact, tunability, and high efficiency.
Part II: Chemistry of Ionic Liquids with Rare Earth
The chemistry underlying the interaction between ionic liquids and rare earth elements forms the foundation of their applications.
Chapter 2: Using Crystal Structures of Ionic Compounds to Explore Complexation and Extraction of Rare Earth Elements in Ionic Liquids
Steven P. Kelley, J. Seth Nuss, and Robin D. Rogers delve into the complexation and extraction processes of rare earth elements. By examining crystal structures of ionic compounds, they shed light on the intricate mechanisms governing these interactions. This chapter highlights how crystal structure analysis can guide the design of ionic liquids optimized for rare earth processing, offering insights into molecular interactions and enhancing the efficiency of separation techniques.
Part III: Ionic Liquids for the Extraction and Separation of Rare Earth
This section focuses on the use of ionic liquids in extracting and separating rare earth elements, emphasizing their potential in developing greener and more efficient processes.
Chapter 3:Separating Rare-Earth Elements with Ionic Liquids
Nada Mehio, Huimin Luo, Chi-Linh Do-Thanh, Xiaoqi Sun, Yinglin Shen, Jason R. Bell, and Sheng Dai present innovative approaches to separating rare earth elements using ionic liquids. The chapter explores how ionic liquids, with their customizable properties, can selectively extract specific rare earth elements, thereby improving separation processes and minimizing waste.
Chapter 4:Ionic Liquid-Based Extraction and Application to Liquid Membrane Separation of Rare Earth Metals
Fukiko Kubota, Jian Yang, and Masahiro Goto investigate the use of ionic liquids in liquid membrane separation systems. This method enhances the extraction efficiency of rare earth metals while addressing environmental concerns. The chapter demonstrates how liquid membranes infused with ionic liquids act as selective barriers, facilitating the transport and separation of targeted elements.
Chapter 5:Application of Ionic Liquid Extractants on Rare Earth Green Separation
Hualing Yang, Ji Chen, Hongmin Cui, Wei Wang, Li Chen, and Yu Liu explore the application of ionic liquid extractants in achieving environmentally friendly rare earth separation. This chapter emphasizes the “green” aspect of these processes, showcasing how ionic liquids can significantly reduce the environmental footprint of rare earth recovery while maintaining high selectivity and efficiency.
Part IV: Electrodeposition of Rare Earth Metal in Ionic Liquids
The fourth part shifts focus to the electrodeposition of rare earth metals, a process crucial for material synthesis and metal recovery.
Chapter 6:Electrodeposition of Rare Earth Metal in Ionic Liquids
Masahiko Matsumiya discusses the electrodeposition of rare earth metals using ionic liquids as electrolytes. This chapter explores how ionic liquids, with their wide electrochemical windows and high thermal stability, enable the electrodeposition of high-purity rare earth metals. The process, which is vital for the production of advanced materials and electronic components, is significantly enhanced by the unique properties of ionic liquids, leading to more efficient and sustainable outcomes.
Part V: Utilization of Ionic Liquids on Rare Earth Materials
The final section explores the diverse applications of ionic liquids in the synthesis and functionalization of rare earth materials, particularly in the field of luminescence.
Chapter 7: Ionic Liquids and Rare Earth Soft Luminescent Materials
Huanrong Li, Yige Wang, Tianren Wang, and Zhiqiang Li examine the role of ionic liquids in the development of soft luminescent materials based on rare earth elements. These materials are widely used in lighting, displays, and other optical applications. Ionic liquids, as solvents and reaction media, enhance the synthesis and stability of these materials, contributing to their improved performance and wider applicability.
Chapter 8: Photofunctional Rare Earth Materials Based on Ionic Liquids
Bing Yan focuses on photofunctional rare earth materials, demonstrating how ionic liquids play a crucial role in their design and synthesis. The chapter highlights innovative methods for creating rare earth-based materials with enhanced photoluminescent properties, making them suitable for advanced applications such as sensors, lasers, and photovoltaic devices.
Chapter 9: Ionic Liquid-Assisted Hydrothermal Synthesis of Rare Earth Luminescence Materials
Yanhua Song, Yuefeng Deng, Ji Chen, and Haifeng Zou discuss the ionic liquid-assisted hydrothermal synthesis of rare earth luminescent materials. This technique leverages the unique properties of ionic liquids to improve the synthesis process, yielding materials with superior luminescent performance. The chapter explores how the combination of hydrothermal conditions and ionic liquid chemistry leads to enhanced control over particle size, morphology, and optical properties.
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Free download Application of Ionic Liquids on Rare Earth Green Separation and Utilization By Ji Chen
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