xianli song | Electrochemistry | Best Researcher Award

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Dr. xianli song | Electrochemistry | Best Researcher Award

Anhui polytechnic university , China.

Dr. Xianli Song 🎓 is a dedicated researcher in applied chemistry, currently serving at Anhui Polytechnic University in China 🏫. With a Ph.D. in Applied Chemistry from the University of Chinese Academy of Sciences 🧪, she focuses on advanced battery materials and electrochemical systems 🔋. Dr. Song has published extensively in high-impact journals and actively contributes to academic conferences 🌍. She brings a wealth of lab expertise and technical skillsets 🧫, making significant strides in materials science and sustainable energy solutions 🌱. Her academic excellence has been recognized with multiple awards 🏅 throughout her career.

PROFILE 

SCOPUS

ORCID 

 

🔍 Summary of Suitability:

Dr. Xianli Song is a promising early-career researcher with a Ph.D. in Applied Chemistry and a growing track record of high-impact scientific contributions 🔬. Her work centers around lithium-ion batteries, solid-state electrolytes, and advanced electrochemical systems—areas that are crucial for clean energy technologies ⚡. Her diverse research experience is evidenced by multiple publications in prestigious international journals such as Advanced Functional Materials, Solid State Ionics, and Electrochimica Acta 📚.

🔹 Education & Experience 

  • 🎓 Ph.D. in Applied Chemistry – University of Chinese Academy of Sciences, Beijing (2017–2021)

  • 🎓 M.E. in Chemistry – University of Xinjiang, Urumqi (2013–2016)

  • 🎓 B.E. in Chemical Engineering and Technology – Taishan Medical College (2008–2012)

  • 👩‍🏫 Teaching & Research – School of Chemical and Environmental Engineering, Anhui Polytechnic University

  • 🧪 Research Experience – Expertise in lithium batteries, solid-state electrolytes, nanofibers, and supercapacitors

Professional Development 🚀📖

Dr. Song continually hones her scientific expertise through active participation in conferences, like presenting a poster at the 8th International Congress on Ionic Liquids (COIL-8) in Beijing 🧑‍🔬. Her development is also shaped by hands-on laboratory practice using advanced instruments like XRD, SEM, TEM 🔬, and electrochemical workstations ⚙️. She is proficient in essential software for scientific analysis and documentation 💻. Fluent in English (CET-6) 🌐, she bridges global scientific discourse effectively. Dr. Song’s commitment to professional growth supports her evolving research in high-performance, sustainable energy storage technologies ⚡.

Research Focus 🔍🤖

Dr. Xianli Song’s research 🔍 primarily centers on energy storage and electrochemical materials, with a particular focus on solid-state lithium metal batteries 🔋. Her work involves developing advanced polymer electrolytes, ionogel-ceramic hybrids, and nanofiber membranes for safer, high-performance batteries 🧫. She also explores materials for supercapacitors and transparent conductive films, contributing to green energy technologies 🌿. Her interdisciplinary approach blends materials science, nanotechnology, and applied chemistry 🧪, making her contributions vital for the next generation of renewable energy storage solutions 🔄. Her studies are published in top-tier journals, underscoring the impact of her work 📚.

Awards and Honors 🏆🎖️

  • 🏅 2020 Merit Student Award – University of Chinese Academy of Sciences

  • 🥇 2016 Excellent Graduate Dissertation – Xinjiang University

  • 🎖 2011 Outstanding Student – Taishan Medical College

Publications & Citations 📚

  • 📄 Construction organic composite gel polymer electrolyte for stable solid-state lithium metal batteriesSolid State Ionics, 2025 📅 | 🔍 Cited by: [citation count needed] 📈

  • 📄 Influence of Si content on infrared and electrical properties of metal-free transparent conductive Si-doped DLC filmDiamond & Related Materials, 2025 📅 | 🔍 Cited by: [citation count needed] 📈

  • 📄 Synergistic coupling in “Ionogel-in-Ceramic” solid electrolyte for lithium batteriesAdvanced Functional Materials, 2021 📅 | 🔍 Cited by: [citation count needed] 📈

  • 📄 Li ion distribution in poly(ionic liquid) electrolyte with LATP nanoparticlesElectrochimica Acta, 2021 📅 | 🔍 Cited by: [citation count needed] 📈

  • 📄 Core@shell nanofiber membrane for lithium-metal batteriesSolid State Ionics, 2020 📅 | 🔍 Cited by: [citation count needed] 📈

  • 📄 Ionic liquids as high-voltage electrolytes for supercapacitorsFrontiers in Chemistry, 2020 📅 | 🔍 Cited by: [citation count needed] 📈

  • 📄 Polyaniline-coal based carbon nanofibers for flexible supercapacitorsElectrochimica Acta, 2016 📅 | 🔍 Cited by: [citation count needed] 📈

  • 📄 CdS on coal-based activated carbon nanofibers with photocatalytic propertyChemical Physics Letters, 2016 📅 | 🔍 Cited by: [citation count needed] 📈

  • 📄 Coal-derived porous carbon fibers for electrodes and absorptionJ. Mater. Chem. A, 2015 📅 | 🔍 Cited by: [citation count needed] 📈

  • 📄 Photochromism of pyrazolone derivatives in solid stateNew J. Chem., 2015 📅 | 🔍 Cited by: [citation count needed] 📈

Conclusion

Dr. Song exemplifies what the Best Researcher Award seeks to recognize: innovative, impactful, and relevant scientific work that advances both academia and real-world applications. Her focus on sustainable energy solutions, publication record, and technical expertise make her a strong and deserving candidate for this prestigious honor. 🏅

 

 

Kyunsylu Khatmullina | Electrochemistry | Best Paper Award

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Assoc. Prof. Dr. Kyunsylu Khatmullina | Electrochemistry | Best Paper Award

Researcher in Federal Research Center of Problems of Chemical Physics and Medicinal Chemistry RAS/Moscow Power Engineering Institute, National Research University , Russia.

Dr. Kyunsylu G. Khatmullina is a dedicated researcher in the field of chemistry, affiliated with the Federal Research Center of Problems of Chemical Physics and Medicinal Chemistry RAS and the Institute of Energy Efficiency and Hydrogen Technologies (IEEHT), Moscow. 🧪 She earned her PhD focusing on polymer electrolytes and cathode materials for lithium batteries. ⚡ With over 19 years of experience, she has contributed to more than 30 journal publications, authored books 📚, and participated in over 60 international and Russian conferences 🌍. Her expertise in nanocomposite materials supports innovations in energy storage technologies 🔋.

PROFILE 

SCOPUS

ORCID 

 

🔍 Summary of Suitability:

Dr. Khatmullina has demonstrated outstanding scientific merit, with a strong publication record in the area of polymer electrolytes and nanocomposite cathode materials for lithium polymer batteries 🔋. Her papers are grounded in experimental rigor, supported by advanced synthesis techniques, and offer innovative solutions for improving energy storage systems—an urgent need in modern energy technology 🌱. Her work contributes to both academic research and practical industrial applications, showcasing a blend of theory and applied science 🔬⚙️.

📘 Education & Experience 

  • 🎓 PhD in Chemistry – Federal Research Center of Problems of Chemical Physics and Medicinal Chemistry RAS

  • 🧑‍🔬 Postgraduate thesis: “New polymer electrolytes and cathode materials for lithium polymer sources”

  • 🧪 Researcher at the Russian Academy of Sciences

  • 🏫 Lecturer – Invited speaker at Tangshan University, China (April 2024, June 2025)

  • 🧭 19+ years of research experience in energy storage systems

  • 📚 Published over 30 peer-reviewed articles and multiple book chapters

Professional Development 🚀📖

Dr. Khatmullina has made outstanding professional strides through her participation in both national and international scientific forums 🌐. She has represented Russia in conferences across France, the Czech Republic, Estonia, and Belarus, presenting innovative research on polymer electrolytes and battery materials 🔬. Her membership on expert councils for youth energy research competitions and contributions to international collaborations exemplify her commitment to the scientific community 💡. She has authored scientific books 📖, contributed chapters to nanomaterials literature, and participated in consultancy projects, enriching her multidisciplinary expertise and impact in the field of chemical sciences 🚀.

Research Focus 🔍🤖

Dr. Khatmullina’s research centers on the development of nanocomposite polymer electrolytes and cathode materials for lithium polymer batteries 🔋. Her work contributes to advancing energy storage systems, crucial for sustainable energy technologies and portable electronics ⚙️. She explores the synthesis and characterization of novel materials that improve the safety, conductivity, and efficiency of batteries ⚗️. Through her interdisciplinary approach combining chemistry, material science, and electrochemistry, she aims to solve real-world energy problems 🌍. Her research outcomes not only contribute to academic knowledge but also support industrial applications and innovations in renewable energy storage solutions ☀️.

Awards and Honors 🏆🎖️

  • 🏅 Winner – All-Russian Competition “Energy of Youth 2010”, Global Energy Foundation

  • 🏆 Winner – UMNIK Competition, Innovation Promotion Foundation

  • 👩‍⚖️ Expert – “Energy of Youth” Research Projects (2011–2013)

  • 🧠 Expert – “Russian Business Appeal” Journalism Competition (2011–2012)

Publications & Citations 📚

  • 🧪 “New Polymer Electrolytes and Cathode Materials for Lithium Polymer Current Sources”PhD Thesis, Federal Research Center of Problems of Chemical Physics and Medicinal Chemistry RAS.

  • 📘 “Nanocomposite Polymer Electrolytes for Energy Storage Systems”Book Chapter in Organic and Hybrid Nanomaterials.

  • 📄 “Advancements in Lithium Polymer Batteries”

  • 📖 “Innovations in Cathode Materials for High-Energy Batteries”

  • 📝 “Electrochemical Dynamics in Polymer Electrolytes”

 

Conclusion

Dr. Khatmullina’s work exemplifies the qualities recognized by Best Paper Awards—originality, impact, and practical relevance. Her extensive contributions to material science and battery technology mark her as a strong candidate whose work not only advances the field but also addresses real-world challenges in sustainable energy. Her papers deserve recognition for their scientific depth, innovation, and relevance to contemporary global needs. 🏅