Lili Wang | Electrochemistry | Best Researcher Award

Assoc. Prof. Dr. Lili Wang | Electrochemistry | Best Researcher Award

Tianjin University of Technology, China

👨‍🎓Profiles

🎓 Early Academic Pursuits

Dr. Lili Wang began her academic journey with a strong foundation in chemistry, culminating in her graduation from Jilin University in 2012, one of China’s leading research universities. Her early academic years were marked by a growing interest in material chemistry and environmental sustainability, which later became the cornerstone of her research endeavors.

🧪 Professional Endeavors

Currently serving as an Associate Professor at the School of Chemistry, Tianjin University of Technology, Dr. Wang has built a robust academic and research career. She has led multiple funded projects, including one from the National Natural Science Foundation of China, one from the Tianjin Natural Science Foundation, and a research initiative under the Tianjin Education Commission. Additionally, she played an active role in another major general project of the National Natural Science Foundation.

🔬 Research Focus and Contributions

Dr. Wang’s research has consistently addressed critical global issues such as energy sustainability and environmental pollution. Her focus spans across:

  • Design and synthesis of environmental energy and catalytic materials

  • Electrocatalytic technology for high-value conversion of biomass and clean energy sources

  • Pollutant treatment and detection using innovative environmental catalysts

Her interdisciplinary approach links material science with green chemistry, enabling breakthroughs in both pollutant degradation and renewable energy conversion.

🌍 Impact and Influence

Over the past five years, Dr. Wang has emerged as a recognized scholar in the field of environmental and energy materials. Her work in electrocatalysis and green energy has directly contributed to the advancement of sustainable energy technologies. By tackling real-world challenges such as clean hydrogen production and biomass valorization, her research holds immense relevance for environmental remediation and carbon neutrality strategies.

📚 Academic Citations and Publications

Dr. Wang has authored over 20 SCI-indexed research articles as the first and corresponding author, which have been published in reputable international journals. These publications highlight her innovative methodologies and practical insights in materials science and catalysis. Her works have garnered citations that reflect a growing recognition from the global scientific community.

🛠️ Technical Skills

Dr. Wang is proficient in the synthesis and structural characterization of nanomaterials, electrochemical analysis, and performance testing of catalytic systems. Her laboratory expertise includes advanced techniques such as FTIR, XPS, SEM, and electrochemical impedance spectroscopy, which she applies in optimizing catalytic performance for environmental applications.

👩‍🏫 Teaching Experience

An experienced and passionate educator, Dr. Wang teaches a range of foundational and advanced chemistry courses including: Physical Chemistry, Physical Chemistry Experiment, Comprehensive Chemical Experiments. Her teaching style integrates theoretical knowledge with practical laboratory skills, fostering critical thinking and innovation among undergraduate and postgraduate students.

🌱 Legacy and Future Contributions

Dr. Wang is committed to fostering the next generation of scientists while continuing to innovate in the field of green materials and clean energy. With her ongoing research projects and student mentorship, she aims to bridge the gap between academic research and industrial application, contributing to China’s dual carbon goals and global sustainability.

📖Notable Publications

Construction of 3D hollow NiCo-layered double hydroxide nanostructures for high-performance industrial overall seawater electrolysis
Journal: Nano Research
Year: 2024
Citations: 6

Interface engineering of 2D NiFe LDH/NiFeS heterostructure for highly efficient 5-hydroxymethylfurfural electrooxidation
Journal: Chinese Chemical Letters
Year: 2024
Citations: 4

Nanoflower core-shell Cu@Pd catalysts for glycol oxidation reaction with an enhanced performance
Journal: Colloids and Surfaces A: Physicochemical and Engineering Aspects
Year: 2023
Citations: 3

Tianjie Qiu | Electrochemistry | Best Researcher Award

Dr. Tianjie Qiu | Electrochemistry | Best Researcher Award

Peking University, China

👨‍🎓Profiles

🎓 Early Academic Pursuits

Tianjie Qiu began his academic journey at Nankai University, where he pursued a Bachelor’s degree in Chemistry of Materials (2013-2017). During his undergraduate studies, he developed a strong foundation in materials science and chemistry, setting the stage for his research in advanced materials. Recognized for his academic excellence, he continued his studies at Peking University, one of China’s premier institutions. From 2017 to 2022, he completed his Ph.D. in Materials Science and Engineering, securing the top rank in his class in annual comprehensive quality evaluations. His early education laid the groundwork for his significant contributions to electrocatalysis and energy materials.

🏆 Professional Endeavors

Dr. Qiu has been an active researcher in the field of materials science and electrochemistry since 2017. His expertise spans multiple areas, including the design of ruthenium-based nanocatalysts, heterostructure engineering, and electrochemical energy storage. His work focuses on developing hierarchically porous materials and MOF-derived catalysts for various applications, such as water electrolysis and potassium-ion batteries. Through innovative material synthesis and characterization techniques, he has pioneered multiple breakthroughs in electrocatalysis and energy storage.

🔬 Contributions and Research Focus

Dr. Qiu’s research primarily focuses on the rational design of nanocomposites for electrochemical applications, contributing significantly to the fields of energy conversion and storage. One of his notable achievements includes the development of hierarchically porous ruthenium-carbon nanocatalysts through a bimetallic MOF-derived method, which enhances hydrogen evolution reaction (HER) and oxygen evolution reaction (OER) performance by employing precise pore-formation strategies. Additionally, he optimized the heterostructure of Ru@RuOx to improve alkaline HER activity. His work on boron/nitrogen codoped carbon nanotubes for water electrolysis led to a universal method for synthesizing RuM (M = Ir, Co, Fe, Pt, Ag) nanoalloys while systematically analyzing the structure-performance relationship of these electrocatalysts. Furthermore, in the field of potassium-ion batteries, Dr. Qiu designed superstructured nitrogen-doped microporous carbon nanorods derived from MOFs and investigated the potassium-ion adsorption mechanism using first-principles calculations. His development of multi-element doped carbon superstructures has further enhanced potassium-ion storage performance. Through these innovations, Dr. Qiu has paved the way for next-generation catalysts and battery materials, advancing electrochemical energy technologies.

📊 Impact and Influence

Dr. Qiu’s work has gained widespread recognition in the scientific community: 26 SCI-indexed publications, h-index: 17, Total Citations: 2,390, 3 ESI Highly Cited Papers, 1 Invention Patent, 2 Co-authored Books. These achievements reflect the depth and influence of his research in the fields of electrocatalysis, energy storage, and materials science. His work has been referenced extensively, contributing to the development of high-performance catalysts and battery technologies.

🛠️ Technical Skills

Dr. Qiu possesses a diverse skill set in materials synthesis, characterization, and electrochemical analysis:

  • Nanomaterials Design: MOF-derived synthesis, porous structure engineering, heteroatom doping.
  • Electrocatalysis: Hydrogen Evolution Reaction (HER), Oxygen Evolution Reaction (OER), water electrolysis.
  • Battery Materials: Potassium-ion batteries, microporous carbon anodes, phosphorus confinement.
  • Computational Analysis: First-principles calculations, energy band analysis, adsorption studies.
  • Advanced Characterization: XRD, SEM, TEM, Raman Spectroscopy, XPS, BET surface analysis.

His expertise bridges the gap between experimental materials science and computational modeling, allowing for a deep understanding of structure-property relationships in nanomaterials.

🎓 Teaching and Mentorship

Beyond research, Dr. Qiu has been actively involved in mentoring and guiding students in materials science. As a top-ranking Ph.D. scholar, he played a crucial role in training junior researchers in advanced material synthesis and electrochemical characterization. His contributions to academia extend beyond publications, fostering a new generation of scientists in nanomaterials and sustainable energy.

🌍 Legacy and Future Contributions

Dr. Qiu’s groundbreaking work in rational catalyst design and battery materials will continue to shape the future of renewable energy and sustainable technologies. His research holds immense potential for:

  • Developing next-generation hydrogen production catalysts for clean energy.
  • Enhancing potassium-ion battery technologies as an alternative to lithium-ion storage.
  • Pushing the boundaries of nanomaterial engineering for energy applications.

With his strong publication record and innovative research, Dr. Qiu is poised to become a leading figure in materials science and energy storage, driving technological advancements in sustainable energy solutions.

📖Notable Publications

  • Metal-organic framework-derived materials for electrochemical energy applications

    • Authors: Z Liang, R Zhao, T Qiu, R Zou, Q Xu
    • Journal: EnergyChem
    • Year: 2019
  • Metal–organic framework-based materials for energy conversion and storage

    • Authors: T Qiu, Z Liang, W Guo, H Tabassum, S Gao, R Zou
    • Journal: ACS Energy Letters
    • Year: 2020
  • Covalent organic framework-based materials for energy applications

    • Authors: DG Wang, T Qiu, W Guo, Z Liang, H Tabassum, D Xia, R Zou
    • Journal: Energy & Environmental Science
    • Year: 2021
  • Highly exposed ruthenium-based electrocatalysts from bimetallic metal-organic frameworks for overall water splitting

    • Authors: T Qiu, Z Liang, W Guo, S Gao, C Qu, H Tabassum, H Zhang, B Zhu, R Zou
    • Journal: Nano Energy
    • Year: 2019
  • Pristine hollow metal–organic frameworks: design, synthesis and application

    • Authors: T Qiu, S Gao, Z Liang, DG Wang, H Tabassum, R Zhong, R Zou
    • Journal: Angewandte Chemie International Edition
    • Year: 2021