Ms. Jin Xia Lin , Xiamen University, China.
Ms. Jin Xia Lin is a dedicated researcher in energy electrochemistry, specializing in electrochemistry of nanomaterials and surface/interfacial processes. Currently pursuing a Doctor of Science at Xiamen University, she also conducts research at the National University of Singapore. Her work focuses on lithium metal batteries, Li-S batteries, and advanced electrochemical characterization techniques. With over 600 citations and an h-index of 13, she has significantly contributed to battery research. Ms. Lin has received numerous scholarships, including the China National Scholarship and the Zhang Qian-Er Scholarship. She actively explores nucleation, growth, and modification techniques for next-generation batteries. ⚡🔋
Publication Profile
Education & Experience 🎓🔬
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Doctor of Science (Energy Electrochemistry) (2021–Present) 🏛️
Xiamen University, China (Supervisor: Prof. Shi-Gang Sun)
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Research (Non-Exchange) (2024–2025) 🔬
National University of Singapore (Supervisor: Prof. Wei Chen)
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Master of Chemistry (Electrochemistry) (2018–2021) 🏅
Xiamen University, China (Supervisor: Prof. Shi-Gang Sun)
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Bachelor of Engineering (Energy) (2014–2018) 🎓
Xiamen University, China
Summary Suitabilty
Ms. Jin Xia Lin is an exceptionally talented researcher in the field of Energy Electrochemistry, making her a highly deserving candidate for the Young Scientist Award. With a strong academic foundation from Xiamen University and the National University of Singapore, her research focuses on the electrochemistry of nanomaterials, surface and interfacial processes, and lithium-based battery technologies. Her contributions to electrochemical performance testing, in-situ characterization techniques, and advanced energy storage solutions highlight her remarkable potential as a future leader in electrochemical energy research.
Professional Development 📈🔬
Ms. Jin Xia Lin has developed extensive expertise in electrochemical performance testing and advanced in-situ characterization techniques. Her skill set includes XRD, DEMS, EIS, FTIR, Raman, UV-vis, SEM, TEM, XAS, TG, XPS, AC-STEM, and EPR analyses. She actively investigates Li electrodeposition mechanisms, cathode design, separator modifications, and electrolytic additives for next-generation lithium batteries. Her research is widely recognized, contributing to fundamental advancements in nucleation and growth of Li metal. With collaborations across international institutions, including the National University of Singapore, she remains at the forefront of innovative battery technology research for sustainable energy solutions. ⚙️🔋🌱
Research Focus 🔋⚡
Ms. Jin Xia Lin’s research is centered on energy electrochemistry, particularly Li metal and Li-S battery technologies. She explores nucleation and growth mechanisms, lithium electrodeposition, cathode design, separator modification, and electrolytic additives to enhance battery efficiency and longevity. She utilizes cutting-edge in-situ characterization techniques to analyze electrochemical behavior and optimize performance. Her work contributes to next-generation energy storage solutions, crucial for applications in renewable energy, electric vehicles, and portable electronics. With a strong background in nanomaterials and interfacial processes, she aims to revolutionize battery technology for a more sustainable and energy-efficient future. ⚡🔋🔍
Awards & Honors 🏆🎖️
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China National Scholarship (2020) 🏆
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Zhang Qian-Er Scholarship (2025) 🎖️
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State Scholarship Fund (2024) 🏅
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“Triple-A Student” Honor at Xiamen University (2016–2021) 🏅
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Academic Scholarships (Doctoral: 2021–2024 | Master: 2018–2020 | Bachelor: 2015–2016) 🎓
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Mindu International Bank Scholarship (2018) 🏦
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Cubic Scholarship (2017) 🏅
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Outstanding Graduate of Xiamen University (2018) 🎓
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Outstanding Prize – Environmental Protection Contest (2017) 🌍
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Outstanding Participant – Social Practice Activity (2016) 🏅
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“Outstanding Individual” – Summer Social Practice (2015) 🏆
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“Energy College Outstanding Worker” (2014) 🎖️
Publication Top Notes
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“Sulfur defect engineering controls Li₂S crystal orientation towards dendrite-free lithium metal batteries” (2025) – Nature Communications
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“Regulating microstructure via in situ calcium incorporation to improve Na-ion storage in hard carbon” (2025) – Journal of Energy Storage
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“A P–O functional group anchoring Pt–Co electrocatalyst for high-durability PEMFCs” (2024) – Energy & Environmental Science
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“A Formula to Customize Cathode Binder for Lithium Ion Battery” (2024) – Advanced Energy Materials
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“Tuning CO₂ Electrocatalytic Reduction Path for High Performance of Li‐CO₂ Battery” (2024) – Advanced Functional Materials
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“Catalyst for polysulfide conversion by Mo₂C/MoO₃ hybrids modified separator in lithium-sulfur batteries” (2023) – Materials Today Physics
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“Fluorinated carbonate-based electrolyte engineering solvation structure for high-voltage Li||LiNiO₂ cell” (2023) – Chemical Engineering Journal
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“A functional electrolyte additive enabling robust interphases in high-voltage Li||LiNi₀.₈Co₀.₁Mn₀.₁O₂ batteries at elevated temperatures” (2022) – Journal of Materials Chemistry A