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  Department of Energy Science and Engineering Theses Ph.D.

Interface Chemistry and Engineering with Nano-Colloidal Electrolytes in Lithium-Metal Batteries

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Title
Interface Chemistry and Engineering with Nano-Colloidal Electrolytes in Lithium-Metal Batteries
DGIST Authors
Minhong LimHochun LeeHongkyung Lee
Advisor
이호춘
Co-Advisor(s)
Hongkyung Lee
Issued Date
2025
Awarded Date
2025-02-01
Citation
Minhong Lim. (2025). Interface Chemistry and Engineering with Nano-Colloidal Electrolytes in Lithium-Metal Batteries. doi: 10.22677/THESIS.200000844968
Type
Thesis
Description
Li-metal batteries, nano-colloidal electrolyte, solid-electrolyte interphase, Li+ transport
Table Of Contents
List of Contents





Abstract i
List of Contents ⅱ
List of Tables ⅳ
List of Figures ⅴ

Chapter 1. Introduction
1.1. Recent Perspectives and Backgrounds on Lithium Secondary Battery 2
1.2. Lithium-Ion Batteries 6
1.2.1. Historical Milestones in Lithium-Ion Batteries Development 6
1.2.2. Principles of Lithium-Ion Batteries: Needs for Next-Generation Batteries 8
1.3. Lithium Metal Batteries 9
1.3.1. Promises and Limitations of Lithium Metal Anode 9
1.3.2. Lithium Dendrite Triggering Factors Ⅰ: Li+ Transport 13
1.3.3. Lithium Dendrite Triggering Factors Ⅱ: SEI Chemistry· 14
1.4. Historical Evolutions of Liquid Electrolyte for Lithium Metal Batteries 16
1.5. Beyond the Liquid Electrolyte: Nano-Colloidal Electrolytes (NCEs) 17
1.5.1. Concepts and Structures 18
1.5.2. Modulation of Li+ Microenvironment 21
1.5.3. Modulating Interface Chemistry 23
1.6. Research Goals 24
1.7. Reference 27

Chapter 2. Modulating Surface Functionality of Nanoparticles
2.1. Introduction 32
2.2. Experimental Methods 34
2.3. Results and Discussion 36
2.4. Conclusion 50
2.5. Reference 52

Chapter 3. Shaping Geometry and Internal Structure of Nanoparticles
3.1. Introduction 58
3.2. Experimental Methods 60
3.3. Results and Discussion 62
3.4. Conclusion 73
3.5. Reference 75

Chapter 4. Controlling Nanoparticle Motion with External Force Engineering

4.1. Introduction 78
4.2. Experimental Methods 80
4.3. Results and Discussion 82
4.4. Conclusion 103
4.5. Reference 105

Chapter 5. Concluding Remark
5.1. Concluding Remark 109

Summary in Korean 112
URI
http://hdl.handle.net/20.500.11750/57985
http://dgist.dcollection.net/common/orgView/200000844968
DOI
10.22677/THESIS.200000844968
Degree
Doctor
Department
Department of Energy Science and Engineering
Publisher
DGIST
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