Julia Shamshina | Biopolymeric Materials | Best Researcher Award

Published on by Petroleum Engineering

Assist. Prof. Dr. Julia Shamshina | Biopolymeric Materials | Best Researcher Award

Assistant Professor at Texas Tech University | United States

Assist. Prof. Dr. Julia Shamshina is an accomplished scientist and Assistant Professor at Texas Tech University, serving within the Fiber and Biopolymer Research Institute and the Department of Chemistry & Biochemistry, with an academic career defined by pioneering contributions to sustainable materials science and green chemistry. She earned her B.S. and M.S. degrees in Chemical Engineering from D. Mendeleev University of Chemical Technology of Russia, followed by a Ph.D. in Organic Chemistry from The University of Alabama, where she later completed postdoctoral research in Analytical Chemistry. With professional experience spanning academia, industry, and entrepreneurial ventures, she has held key scientific and leadership positions at institutions and companies including Streamline Automation, 525 Solutions, McGill University, and Mari Signum Mid-Atlantic, where her work received recognition through NASA Tech Brief and ACS Green Chemistry awards. Her research focuses on ionic liquids and biopolymers, particularly chitin and cellulose, with emphasis on designing scalable, biodegradable alternatives to plastics and advancing industrial applications of renewable polymers. She has led projects in green propulsion, pharmaceutical platforms, biopolymer composites, sustainable textile dyes, and advanced biomedical scaffolds, achieving a record of 108 peer-reviewed publications, 23 patents, and over a dozen book chapters, along with extensive editorial service across leading journals. Her impact is reflected in 4,936 citations across 3,651 documents, supported by an h-index of 40, underscoring the global recognition of her research excellence. Her consultancy and collaborations with industry and national laboratories highlight her ability to bridge fundamental science with commercialization, fostering circular bioeconomy solutions. Recognized among the world’s top 2% scientists for multiple consecutive years, she is an active member of international professional societies, including the American Chemical Society and the European Chitin Society, and has contributed to organizing and presiding over symposia worldwide. Her research interests include ionic liquids, biopolymer separations, functional biomaterials, and renewable chemical processes, with a vision of transforming waste streams and natural resources into value-added, sustainable products. With her innovative spirit, global collaborations, and dedication to environmentally responsible material development, Assist. Prof. Dr. Julia Shamshina continues to shape the future of green chemistry and sustainable biomaterials, inspiring both academic progress and industrial innovation.

Profile: Scopus | ORCID

Featured Publications

Panackal Shibu, R., Jafari, M., Sagala, S. L., & Shamshina, J. L. (2025). Chitin nanowhiskers: A review of manufacturing, processing, and the influence of content on composite reinforcement and property enhancement.

Zannat, A., Eason, I., Wylie, B., Rogers, R. D., Berton, P., & Shamshina, J. L. (2025). Comparative analysis of chitin isolation techniques from mushrooms: Toward sustainable production of high-purity biopolymer.

Shi, S., Wang, Y., Ye, Z., Xie, H., Liu, C., Liao, J., Zhao, D., Sun, Q., Shamshina, J. L., & Shen, X. (2025). Dual‐working‐pattern nanosheet‐based hydrogel sensors for constructing human‐machine and physiological‐electric interfaces.

Jayalath, P., Ananthakrishnan, K., Jeong, S., Panackal Shibu, R., Zhang, M., Kumar, D., Yoo, C. G., Shamshina, J. L., & Therasme, O. (2025). Bio-based polyurethane materials: Technical, environmental, and economic insights.

Rajan, K., Berton, P., Rogers, R. D., & Shamshina, J. L. (2024). Is Kraft pulping the future of biorefineries? A perspective on the sustainability of lignocellulosic product development.

Basak, T., & Shamshina, J. L. (2024). Design of chitin cell culture matrices for 3D tissue engineering: The importance of chitin types, solvents, cross-linkers, and fabrication techniques.

Shkuratov, A. S., Panackal Shibu, R., Therasme, O., Berton, P., & Shamshina, J. L. (2024). Sustainable production of chitin nanowhiskers from crustacean biomass using cost-effective ionic liquids: Strategies to avoid byproduct formation.

Yang Zhao | Intelligent Material Development for CCUS | Best Researcher Award

Published on by Petroleum Engineering

Prof. Dr. Yang Zhao | Intelligent Material Development for CCUS | Best Researcher Award

Associate Professor at China University of Petroleum-Beijing, China

Dr. Yang Zhao is an Associate Professor of Petroleum Engineering at the China University of Petroleum–Beijing. A specialist in sustainable oil and gas development, CO₂-enhanced oil recovery (EOR), and geological sequestration, his work blends innovation in chemical materials with practical solutions for conformance control and carbon storage. With a career bridging the U.S. and China, Dr. Zhao contributes to both academia and industry through editorial roles, patents, and international project collaborations. His multi-disciplinary expertise positions him as a thought leader in carbon management technologies, especially for deep water and fractured reservoirs in complex field environments.

Profile

Scopus

Education

Dr. Zhao earned his Ph.D. in Petroleum Engineering from the Missouri University of Science and Technology (USA) in 2021, where he gained deep expertise in CO₂ EOR and microgel-based reservoir treatment. Prior to that, he completed both his Master’s (2017) and Bachelor’s (2014) degrees in Petroleum Engineering at the China University of Petroleum Huadong. His educational journey combined rigorous laboratory research, numerical simulation, and field-scale applications, equipping him with strong theoretical foundations and practical skills in flow assurance, reservoir engineering, and environmental mitigation, particularly in low-permeability and offshore conditions.

Experience

Since 2022, Dr. Zhao has been serving as an Associate Professor at China University of Petroleum–Beijing. He leads national and ministerial projects on CO₂ channeling control, conformance enhancement, and the development of novel in situ gel systems for high-temperature offshore reservoirs. Previously, he worked with internationally recognized researchers in the U.S. and contributed to pioneering studies on microgel propagation and enhanced heavy oil recovery techniques. Dr. Zhao’s broad professional engagements also include editorial roles, symposium organization, and collaborative research with energy corporations, ensuring a practical orientation to his scientific endeavors.

Research Interest

Dr. Zhao’s research interests focus on carbon dioxide EOR, geological storage, chemical conformance control, and novel materials for flow assurance. His work explores CO₂-responsive gels, microgel behavior in super permeable channels, and hybrid chemical techniques that integrate stimulation, storage, and recovery processes. He has also made significant contributions to hydrate blockage prediction in subsea gas pipelines. His innovative thinking bridges laboratory experiments and field-scale applications, aiming to maximize oil recovery while ensuring environmental sustainability. Recent efforts target megaton-scale CCUS projects, particularly in large-pore-volume reservoirs and tight formations that present unique engineering challenges.

Awards

Dr. Zhao has received multiple accolades recognizing his research excellence and scientific impact. Notably, he was awarded Best Paper at URTeC 2020 and multiple international conferences, including the Offshore Technology Conference and the National Conference on Hydrodynamics. He was honored for Outstanding Review Contributions by the Journal of Petroleum Science and Engineering and selected as Session Chairperson at the MIT A+B Energy Symposium and International CCUS Conference. His participation as a technical editor and guest editor for over ten leading journals further underscores his professional distinction and global academic influence.

Publications

Dr. Zhao has authored numerous impactful articles across top-tier journals. Below are seven selected publications with citation impact:

  1. Zhao, Y., Wen, X., Rui, Z.H. et al. “A novel dual-network CO₂-responsive particle gel…” Chemical Engineering Journal, 2024 – Cited by 35 articles.

  2. Zhao, Y. et al. “Importance of conformance control in reinforcing synergy of CO₂ EOR…” Petroleum Science, 2022 – Cited by 65 articles.

  3. Zhao, Y. et al. “Enhancing heavy oil recovery by combining low salinity water and polymer flooding.” SPE Journal, 2021 – Cited by 97 articles.

  4. Zhao, Y., Bai, B. “Transport behavior of swell able microgel particles…” SPE Journal, 2022 – Cited by 54 articles.

  5. Zhao, Y. et al. “Microgel conformance control treatment for polymer flooding reservoirs…” SPE Journal, 2021 – Cited by 46 articles.

  6. Zhao, Y. et al. “Hydrate-blockage assessment during deep water gas-well testing.” SPE Journal, 2018 – Cited by 88 articles.

  7. Ding, Y., Zhao, Y, Wen, X. et al. “Development and applications of CO₂-responsive gels…” Gels, 2023 – Cited by 22 articles.

These publications reflect a consistent record of innovation, technical depth, and field relevance.

Conclusion

Dr. Yang Zhao is a visionary petroleum engineer whose work advances the frontier of low-carbon energy production and reservoir sustainability. His pioneering contributions to CO₂-responsive gel systems, hydrate control, and EOR-geo-sequestration synergy have influenced global CCUS practices. Bridging fundamental research with industrial implementation, Dr. Zhao continues to shape academic discourse and engineering solutions for future energy systems. Through teaching, research leadership, and interdisciplinary collaborations, he cultivates the next generation of petroleum engineers committed to sustainability and innovation. His career trajectory reflects scientific rigor, practical relevance, and an unwavering dedication to addressing energy and environmental challenges.