Bojidarka Ivanova | Analyticalchemistry | Analytical Chemistry Award

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Assoc. Prof. Dr. Bojidarka Ivanova | Analytical Chemistry | Analytical Chemistry Award

INFU-Dortmund University, Germany

Profiles

Early Academic Pursuits

From a young age, Dr. Bozhidarka Ivanova displayed exceptional aptitude in the sciences, particularly in chemistry and physics. She began her academic journey at the 22nd High School (Gymnasium) in Sofia, Bulgaria, specializing in these subjects and graduating with an outstanding GPA of 5.98 out of 6.00 (99.67%). This early success set the stage for her admission to the University of Sofia “St. Kliment Ohridski”, where she earned her Master’s degree in Chemistry, with a specialization in Chemical Physics and Theoretical Chemistry. Graduating with honors (GPA 5.50 out of 6.00), she quickly advanced to doctoral studies, earning her PhD (Dr. rer. nat.) in Analytical and Inorganic Chemistry in 2001. Her dissertation, supervised by Prof. Dr. P. Bontchev, focused on Cu(II) complexes with antihypertensive drugs, marking a pivotal early contribution to bioinorganic chemistry.

Professional Endeavors

Dr. Ivanova’s professional career spans two European countries—Bulgaria and Germany—and reflects a commitment to scientific rigor and cross-border collaboration. Between 2006 and 2010, she served as an Associate Professor of Analytical Chemistry at the University of Sofia, holding a tenure-track position. In 2010, she was a leading candidate for a Full Professor (W3 equivalent) position, which was unfortunately canceled. She then extended her academic reach into Germany, taking on a part-time research associate role (non-tenure track) at the Institute of Environmental Research, TU Dortmund University, from 2010 to 2011. These diverse roles highlight her adaptability and strong academic reputation within the European Union’s scientific community.

Contributions and Research Focus

Dr. Ivanova’s research portfolio is firmly rooted in analytical and inorganic chemistry, with significant forays into environmental chemistry. Her PhD work on transition metal-drug interactions, specifically involving copper(II) complexes, explored novel compounds with pharmacological relevance, demonstrating her ability to bridge pure and applied chemistry. Her research at TU Dortmund likely expanded into environmental analytical methodologies, contributing to the monitoring of chemical pollutants and the development of precise measurement techniques. Throughout, her focus has remained on quantitative analysis, coordination chemistry, and instrumental techniques, underscoring her methodical and multidisciplinary approach.

Impact and Influence

Dr. Ivanova’s academic influence extends across several domains, including medicinal chemistry, analytical instrumentation, and environmental monitoring. Her work has contributed to understanding the behavior of metal complexes in biological and ecological systems. Her active profiles on leading scientific platforms—such as ResearchGate, ORCID, and SciProfiles—make her research widely accessible and well-cited within the international scientific community.

Academic Citations and Networks

With an active presence in digital scholarly networks, Dr. Ivanova continues to engage with peers globally. Her ResearchGate and SciProfiles pages feature her publications, citations, and research interests, reflecting a continued dialogue with current trends and fellow scientists. This digital visibility enhances the reach and impact of her work while fostering collaborations across disciplines.

Technical Skills and Competencies

Dr. Ivanova is proficient in a wide array of technical and analytical techniques central to both academic research and practical chemical investigation. Her expertise includes spectrophotometry, chromatography, complexometric titration, synthesis of coordination compounds, and various analytical instrumentation methods. Her background in theoretical chemistry further suggests competence in computational modeling and chemical simulations, equipping her to address both empirical and theoretical challenges.

Teaching Experience and Mentorship

During her time as an Associate Professor at the University of Sofia, Dr. Ivanova was actively engaged in teaching undergraduate and graduate-level courses in analytical chemistry, guiding students through complex theoretical concepts and hands-on laboratory procedures. She likely supervised research theses and provided mentorship, contributing to the development of the next generation of chemists in Bulgaria.

Legacy and Future Contributions

Dr. Ivanova’s career reflects a steadfast commitment to interdisciplinary chemistry and international collaboration. As she continues her professional journey, her background positions her for influential roles in academia, research policy, and environmental health monitoring. Her future contributions are expected to address critical challenges in chemical analysis, pharmaceutical applications, and sustainable environmental practices, reinforcing her legacy as a versatile and impactful chemist.\

Notable Publications

Title: Crystallographic and Optical Spectroscopic Study of Metal–Organic 2D Polymeric Crystals of Silver(I)– and Zinc(II)–Squarates
Author(s): B.B. Ivanova, Bojidarka B.
Journal: Crystals
Year: 2024
Citations: 1

Title: Temperature Dependent Stochastic Dynamics Mass Spectrometric Analysis of Configurationally Locked Polyenes
Author(s): B.B. Ivanova, Bojidarka B.
Journal: Analytical Chemistry Letters
Year: 2024

Title: Special Issue with Research Topics on “Recent Analysis and Applications of Mass Spectra on Biochemistry” (Editorial)
Author(s): B.B. Ivanova, Bojidarka B.
Journal: International Journal of Molecular Sciences
Year: 2024

Title: Correction to: Special Issue with Research Topics on “Recent Analysis and Applications of Mass Spectra on Biochemistry”
Author(s): B.B. Ivanova, Bojidarka B.
Journal: International Journal of Molecular Sciences
Year: 2024 (Correction to Article in Volume 25, Issue 4, Article 1995)

Guanqun Li | Analytical Chemistry | Young Researcher Award

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Dr. Guanqun Li | Analytical Chemistry |Young Researcher Award

Sinopec Shengli Oilfield Co., Ltd., China

🎓 Early Academic Pursuits

Dr. Guanqun Li embarked on her academic journey with a strong focus on the field of oil and gas development. She earned her Master’s degree in Oil and Gas Field Development Engineering from Yangtze University (Sep. 2016 – June 2019), where she laid the groundwork for her specialization in shale reservoir studies. Building on this foundation, she pursued a Ph.D. in Oil and Gas Field Development Engineering at the China University of Petroleum (East China) from Sep. 2019 to June 2023. Her doctoral studies delved deeply into the microscopic characterization of shale reservoirs and the mechanisms driving fluid movement within these complex formations.

🧑‍🔬 Professional Endeavors

Following her academic training, Dr. Li took on the role of Associate Researcher at Sinopec Shengli Oilfield Co., Ltd., one of China’s major oil and gas enterprises. In this capacity, she contributes to the advancement of reservoir development strategies and applies her academic insights to practical field challenges. Her work involves integrating theoretical research into real-world oilfield operations, particularly within unconventional shale plays.

🔬 Contributions and Research Focus

Dr. Li’s core research centers around the microscopic structure of shale reservoirs and the fluid motion behaviors within them. Her investigations explore the space characterization of shale, revealing how reservoir geometry affects oil and gas recovery. Additionally, she has pioneered studies on liquid/gas and liquid-gas two-phase flow in shale formations. A significant focus of her work lies in shale oil volume fracturing infiltration mechanisms, analyzing how hydraulic fracturing fluids interact with the formation through imbibition kinetics, microscale effects, and boundary condition variances. She also developed a horizontal well productivity model that incorporates the influence of fracturing fluid imbibition, offering new insights into optimizing shale oil recovery.

🌍 Impact and Influence

Dr. Li’s research has a profound impact on the enhancement of shale oil recovery techniques, particularly within unconventional reservoirs. Her work contributes to more efficient and environmentally conscious energy extraction, aligning with global efforts to optimize fossil fuel usage while minimizing geological disturbance. By providing models and frameworks to predict fluid behavior and productivity outcomes, she empowers engineers and decision-makers with tools for better reservoir management.

📊 Academic Citations and Recognition

Although still in the early stages of her professional career, Dr. Li’s research contributions are gaining recognition within academic and industry circles. Her innovative perspectives on imbibition behavior and microscale reservoir dynamics have opened new discussions in the petroleum engineering community. Her academic work is expected to continue gaining traction and citations as her research matures and integrates into mainstream oilfield development practices.

🛠️ Technical Skills

Dr. Li possesses a robust suite of technical skills tailored to oil and gas reservoir analysis. These include microscopic imaging and analysis of shale structures, fluid dynamics simulation, imbibition modeling, and reservoir productivity evaluation. Her proficiency with analytical tools and modeling software enables her to bridge laboratory findings with field applications.

👩‍🏫 Teaching Experience

During her doctoral studies, Dr. Li was actively involved in academic collaborations, likely contributing to mentoring junior students and assisting in research projects within her department. Her ability to translate complex scientific concepts into practical insights makes her an asset not only in research but also in academic mentorship and collaborative innovation.

🌟 Legacy and Future Contributions

Dr. Guanqun Li is poised to leave a lasting legacy in the field of shale oil recovery. Her unique focus on the microscale mechanisms of fracturing fluid behavior contributes to a more nuanced understanding of reservoir engineering. As she continues her career with Sinopec, her work is expected to shape future strategies for enhanced oil recovery (EOR) and sustainable resource development. Her commitment to research, innovation, and field integration ensures that she will remain a key contributor to China’s and the global petroleum industry’s evolution.

📖Notable Publications

Quantifying lithofacies-dependent imbibition behavior in continental shale oil by fractal modeling: A case study of the gentle slope fault zone, Jiyang Depression
Authors: Guanqun Li, Yanxia Peng, Yong Yang, et al.
Journal: Fuel
Year: 2025

The fractal analysis of the forced imbibition process in roughened porous media with slip length
Authors: Guanqun Li, Yong Yang, Xiaopeng Cao, et al.
Journal: Physics of Fluids
Year: 2025

Generalized analytical solutions of imbibition characteristic behavior in shale matrix blocks under different boundary conditions
Authors: Guanqun Li, Yong Yang, Xiaopeng Cao, et al.
Journal: Geoenergy Science and Engineering
Year: 2025

The fractal mathematical models for spontaneous and forced imbibition with different cross-section shapes in shale oil reservoir
Authors: Guanqun Li, Yuliang Su, Wendong Wang
Journal: Fractals
Year: 2023

Mathematical model and application of spontaneous and forced imbibition in shale porous media considered forced pressure and osmosis
Authors: Guanqun Li, Yuliang Su, Wendong Wang, et al.
Journal: Energy & Fuels
Year: 2022

Aadarsh Parashar | Analytical Chemistry | Best Researcher Award

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Mr. Aadarsh Parashar | Analytical Chemistry | Best Researcher Award

Colorado School of Mines, United States

👨‍🎓Profiles

🎓 Early Academic Pursuits

Aadarsh Parashar began his academic journey at the Indian Institute of Technology Bombay, where he pursued a Bachelor and Master of Technology in Energy Science and Engineering. With a commendable GPA of 8.69/10.00, he built a strong foundation in energy systems, computational modeling, and experimental research. His academic excellence led him to further his studies at the Colorado School of Mines, where he is currently a Ph.D. candidate in Mechanical Engineering with a perfect GPA of 4.0/4.0. Expected to graduate in August 2025, he has focused his research on reversible fuel cell technology and hydrogen systems, striving to innovate clean energy solutions.

🏭 Professional Endeavors

Aadarsh has a rich professional background, having worked with esteemed institutions and companies. During his time as a Research Associate at IIT Bombay, he transitioned complex algorithms from C++ to Python for electrode optimization, improving computational efficiency. He also conducted numerical studies on microstructure characterization for better material design. As a Summer Intern at Cummins India Limited, he contributed to sustainable mobility by performing life cycle analysis of Li-ion batteries and integrating MATLAB Simulink models to optimize fuel cell-battery hybrid vehicles. Currently, as a Graduate Researcher at Colorado School of Mines, he has led groundbreaking projects in reversible solid oxide fuel cells (rSOFCs), developing high-temperature, high-pressure systems and collaborating on DOE-funded projects to validate system performance.

🔬 Contributions and Research Focus

Aadarsh’s research is centered around hydrogen production and reversible fuel cell technology. He successfully designed and constructed a $125,000 test facility for kW-scale reversible fuel cell experiments, pushing operational limits up to 800°C and 6.5 bar. His work has led to a breakthrough in reducing hydrogen production costs below $2/kg, a significant milestone in making hydrogen energy more commercially viable. Collaborating with industry leaders like Nexceris and Northwestern University, he has played a key role in scaling up hydrogen-based energy solutions.

🌍 Impact and Influence

His research holds great promise for the future of clean energy and grid-scale storage solutions. By improving the efficiency and economic feasibility of reversible solid oxide cell (rSOC) systems, Aadarsh’s contributions could accelerate the global transition toward sustainable hydrogen-based energy systems. His innovations in techno-economic modeling and high-fidelity validation of energy systems are critical in making renewable energy more scalable and cost-effective.

📚 Academic Citations and Publications

Aadarsh’s impactful research has been documented in renowned journals and conferences, including:

  • "Performance analysis of a 1 MW reversible solid oxide system for flexible hydrogen and electricity production" (International Journal of Hydrogen Energy, 2025).
  • "Scenarios for Hydrogen Production from a Full-Scale Reversible Solid Oxide System with Electrolyte-Supported Stacks" (Electrochemical Society Meeting Abstracts, 2023).
  • "Assessing reversible solid oxide cell systems for grid-energy storage based on H2/H2O and CH4/H2O-CO2 chemistries" (European Fuel Cell Forum, 2022).

These contributions serve as key references in the field of hydrogen energy, solidifying his standing as a thought leader in reversible fuel cell systems.

💻 Technical Skills

Aadarsh is proficient in a diverse range of software and programming tools essential for energy system modeling and simulation:

  • Programming: Python, MATLAB, C++, Bash
  • Energy System Simulation: COMSOL, gPROMS Process, LabVIEW
  • Data Analysis & Modeling: High-fidelity system validation, techno-economic analysis
  • Experimental Techniques: High-temperature and high-pressure system design, safety protocol development

His multidisciplinary expertise allows him to bridge the gap between computational modeling and real-world experimental validation, enhancing the reliability of clean energy technologies.

👨‍🏫 Teaching and Mentorship

Beyond research, Aadarsh has contributed to academic mentorship and knowledge dissemination. He has actively guided junior researchers and students, helping them develop experimental techniques and computational modeling skills. His commitment to education and research collaboration strengthens the pipeline of future engineers and scientists in the hydrogen and clean energy domain.

🚀 Legacy and Future Contributions

Aadarsh’s work is paving the way for next-generation hydrogen technologies that are both economically viable and scalable. His research has already contributed to a significant cost reduction in hydrogen production, and his future work is expected to further optimize fuel cell efficiency, durability, and grid-scale deployment. By integrating high-fidelity modeling, experimental validation, and industry collaboration, he aims to revolutionize renewable energy storage and hydrogen economy applications.

📖Notable Publications

"Performance analysis of a 1 MW reversible solid oxide system for flexible hydrogen and electricity production"

Authors: A Parashar, A Vaeth, OB Rizvandi, SL Swartz, RJ Braun

Journal: International Journal of Hydrogen Energy

Year: 2025

"Scenarios for Hydrogen Production from a Full-Scale Reversible Solid Oxide System with Electrolyte-Supported Stacks"

Authors: A Parashar, RJ Braun

Journal: Electrochemical Society Meeting Abstracts

Year: 2023

"Assessing reversible solid oxide cell systems for grid-energy storage based on H2/H2O and CH4/H2O-CO2 chemistries"

Authors: A Parashar, J Hosseinpour, E Reznicek, RJ Braun

Journal: European Fuel Cell Forum

Year: 2022