Joanna Szymkowiak | Materials | Best Researcher Award

Posted on by Forensic Scientist

Dr. Joanna Szymkowiak | Materials | Best Researcher Award

Adam Mickiewicz University | Poland

Dr. Joanna Katarzyna Szymkowiak, is a dedicated scientist in the field of supramolecular chemistry. Since January 2025, she has been working as an Adjunct Postdoctoral Scientist at the Faculty of Chemistry, Adam Mickiewicz University (AMU), Poland. Her career spans various esteemed institutions, including her previous role as a Senior Scientist at Selvita S.A. and as a Postdoctoral Scientist at the University of British Columbia, Canada. Throughout her academic journey, Joanna has made significant contributions to organic chemistry, particularly in functionalized chiral macrocycles and organic cages.

Professional profile👤

ORCID

Scopus

Strengths for the Awards✨

  • Extensive Research Background: Dr. Szymkowiak has a diverse and impactful research portfolio, with a focus on chiral materials and supramolecular chemistry. Her research is cutting-edge, with recent papers published in reputable journals like Journal of Physical Chemistry Letters and Chemistry – A European Journal.

  • Impressive Academic and Industry Experience: She has held various postdoctoral positions at prestigious institutions like Adam Mickiewicz University (AMU) and the University of British Columbia, as well as industry experience with Selvita S.A. Her ability to bridge academia and industry is an asset for driving practical applications of her research.

  • Recognized by the Scientific Community: Dr. Szymkowiak has received multiple accolades for her work, such as the Aleksander Zamojski’s Award and an honorable mention for her doctoral dissertation. These honors are a testament to the quality and significance of her contributions to organic and supramolecular chemistry.

  • Contribution to International Collaboration: Her involvement in high-level international projects, such as the Mieczysław Bekker Program funded by the National Agency for Academic Exchange (NAWA), and collaborations with world-renowned researchers like Prof. Mark MacLachlan, underscores her ability to work within global scientific communities.

  • Prolific Publication Record: Dr. Szymkowiak has contributed to numerous high-impact publications across a range of prestigious journals. Her work covers diverse aspects of chemistry, particularly in the development of functionalized chiral materials and organic cages, which are highly relevant to modern chemistry research.

Education 🎓

Dr. Szymkowiak completed her PhD in 2018 at AMU, where she focused on “Functionalized Chiral Macrocycles and Organic Cages” under the supervision of Prof. Marcin Kwit. Her earlier studies at AMU led her to a deep engagement with chemistry, particularly biological chemistry, and chemical analysis. Her education has laid a strong foundation for her ongoing research in organic and materials chemistry.

Experience 💼

Dr. Szymkowiak’s career spans prestigious positions across both academic and industry sectors. She has worked on cutting-edge research projects at AMU, the University of British Columbia, and Selvita S.A., bringing her expertise to a wide range of research areas. Her responsibilities included scientific project management, student supervision, and active participation in scientific conferences. She has also made significant strides in interdisciplinary research, focusing on chiral materials, mesoporous organosilica films, and supramolecular chemistry.

Research Interests On Materials 🔬

Dr. Szymkowiak’s research interests lie at the intersection of organic chemistry, materials science, and supramolecular chemistry. She specializes in the design and synthesis of chiral organosilica materials, including mesoporous films and organic cages. Her work aims to develop innovative solutions for materials with unique optical and mechanical properties, crucial for applications in nanoscience and other advanced fields.

Awards 🏆

Dr. Szymkowiak has received several prestigious awards and recognitions. These include a Postdoctoral Fellowship from the National Agency for Academic Exchange (NAWA) in the Mieczysław Bekker Program and the Aleksander Zamojski’s Award for her outstanding doctoral dissertation. Additionally, she has been honored with multiple awards for oral and poster presentations at national conferences and was acknowledged by the Royal Chemical Society in 2025 for her publication on Nanoscale.

Publication 📚

Dr. Szymkowiak has contributed to numerous high-impact journals in the field of chemistry. Her recent publications include:

  • Thio-modified trianglimines, a novel group of chiral macrocyclic compounds of high structural dynamics

    • Authors: Natalia Prusinowska, Agnieszka Czapik, Joanna Katarzyna Szymkowiak, Marcin Kwit

    • Publication Year: 2025

  • Excited State Dynamics Govern Emission Properties of Unique Silsesquioxane-Salphen-Based Zinc Compounds

    • Authors: Joanna Szymkowiak, Tomasz Pędziński, Beata Dudziec

    • Publication Year: 2025

  • Hybrid Inclusion Materials Based on Chiral Nematic Mesoporous Organosilica with Incorporated Cyclodextrin Receptors

    • Authors: Joanna Katarzyna Szymkowiak

    • Publication Year: 2025

  • Controlling the optical properties of chiral nematic mesoporous organosilica films with bioadditives

    • Authors: Joanna Katarzyna Szymkowiak, Lucas Andrew, Wadood Y. Hamad, Mark MacLachlan

    • Publication Year: 2024

  • Halloysite nanotubes enhance the mechanical properties and thermal stability of iridescent cellulose nanocrystal films

    • Authors: Gao, H.; Soto, M.A.; Szymkowiak, J.K.; Andrew, L.J.; Hamad, W.Y.; MacLachlan, M.J.

    • Publication Year: 2023

  • Unravelling Structural Dynamics, Supramolecular Behavior, and Chiroptical Properties of Enantiomerically Pure Macrocyclic Tertiary Ureas and Thioureas

    • Authors: Natalia Prusinowska, Joanna Szymkowiak, Marcin Kwit

    • Publication Year: 2023

  • Specific Noncovalent Association of Truncated exo-Functionalized Triangular Homochiral Isotrianglimines through Head-to-Head, Tail-to-Tail, and Honeycomb Supramolecular Motifs

    • Authors: Janiak, A.; Gajewy, J.; Szymkowiak, J.; Gierczyk, B.; Kwit, M.

    • Publication Year: 2022

  • Tuning the Properties of Chiral Nematic Mesoporous (Organo)silica Through Thiol‐Ene Click Chemistry

    • Authors: Joanna Katarzyna Szymkowiak

    • Publication Year: 2022

  • Simple modifications of nicotinic, isonicotinic, and 2,6-dichloroisonicotinic acids toward new weapons against plant diseases

    • Authors: Czerwoniec, P.; Szymkowiak, J.; Smiglak, M.

    • Publication Year: 2021

  • Consistent supramolecular assembly arising from a mixture of components-self-sorting and solid solutions of chiral oxygenated trianglimines

    • Authors: Szymkowiak, J.; Warżajtis, B.; Rychlewska, U.; Kwit, M.

    • Publication Year: 2018

Conclusion 🌍

Dr. Joanna Katarzyna Szymkowiak is an accomplished researcher with significant contributions to the field of supramolecular and materials chemistry. Her dedication to advancing the understanding of chiral materials and organic cages has made her a respected figure in both academic and scientific communities. With a strong foundation in education and experience, she continues to push the boundaries of chemistry, inspiring future research in nanoscience and materials development.

Jihye Kim | Materials | Best Researcher Award

Posted on by Forensic Scientist

Dr. Jihye Kim | Materials | Best Researcher Award

Assistant Professor | Colorado School of Mines | United States

Dr. Jihye Kim is an accomplished Assistant Professor at the George S. Ansell Department of Metallurgical and Materials Engineering, Colorado School of Mines. With a strong background in extractive metallurgy, resource recovery, and critical materials extraction, Dr. Kim has made significant contributions to sustainable materials processing. Her research focuses on innovative hydrometallurgical techniques, mineral carbonation for carbon sequestration, and chemical modeling of electrolyte systems. Dr. Kim is dedicated to fostering a stimulating learning environment that encourages students to explore, discover, and think critically beyond the classroom.

Professional profile👤

ORCID

Google Scholar

Scopus

Strengths for the Awards✨

  • Outstanding Research Contributions

    • Dr. Jihye Kim has an extensive publication record, including high-impact journal articles, conference papers, and book chapters.
    • Her research focuses on critical topics such as extractive metallurgy, mineral processing, carbon capture, and rare earth element recovery, all of which have significant industrial and environmental implications.

  • Strong Funding and Grant Success

    • She has successfully secured multiple high-value research grants, including funding from the National Science Foundation (NSF), Department of Energy (DOE), NASA, and the Alfred P. Sloan Foundation.
    • Active involvement as a Principal Investigator (PI) and Co-PI in multimillion-dollar research projects.

  • Awards and Recognitions

    • Recipient of the Ontario Trillium Scholarship ($160,000) and multiple academic scholarships and fellowships, demonstrating academic excellence and research impact.
    • Earned the Students Discovery Award (2021) at the University of Toronto, recognizing her research achievements.

  • Industrial and International Research Experience

    • Hands-on experience through engineering internships with Barrick Gold Corporation and National Metallurgical Laboratory, India.
    • Strong international collaborations with institutions in South Korea, Canada, and the USA.

  • Educational and Mentorship Contributions

    • Engaged in teaching undergraduate and graduate courses at the Colorado School of Mines.
    • Experience as a teaching assistant at University of Toronto and Seoul National University, shaping the next generation of metallurgical engineers.

Education 🎓

Dr. Kim earned her Doctor of Philosophy in Chemical Engineering from the University of Toronto (2017-2021), where she worked on sustainable valorization of steelmaking slag under the guidance of Professor Gisele Azimi. Prior to her Ph.D., she obtained a Master of Applied Science in Energy Systems Engineering (2014-2016) and a Bachelor of Applied Science in Energy Resources Engineering (2011-2014) from Seoul National University.

Experience 🌟

Dr. Kim’s academic and professional journey reflects her expertise in metallurgical and materials engineering. She is currently an Assistant Professor at Colorado School of Mines, where she leads cutting-edge research projects and teaches courses on chemical processing, transport phenomena, and hydrometallurgical processing. Previously, she was a Postdoctoral Fellow at the University of Toronto, focusing on resource-efficient hydrometallurgical recovery of platinum group metals and rare earth elements. Her teaching experience includes serving as a Teaching Assistant at the University of Toronto and Seoul National University. She also gained industry experience as an Engineering Intern at Barrick Gold Corporation (Canada) and the National Metallurgical Laboratory (India).

Research Interests On Materials 🔬

Dr. Kim’s research centers on sustainable resource recovery, extractive metallurgy, and carbon capture technologies. She specializes in hydrometallurgical processing, mineral carbonation for CO2 sequestration, critical materials extraction from secondary resources, and electrolyte system modeling. Her work aims to develop environmentally friendly and economically viable methods for metal recovery and waste valorization.

Awards & Honors 🏆

Dr. Kim has received numerous prestigious awards, including the Ontario Trillium Scholarship (2017-2021), the Students Discovery Award (2021), and multiple fellowships from the University of Toronto. She was also awarded the Brain Korea 21 Plus Scholarship, Academic-Industrial Scholarship from Hyundai Resources Development, and several merit-based scholarships from Seoul National University. Her outstanding academic achievements were recognized with Graduation with Honors (Cum Laude) from Seoul National University in 2014.

Publications 📚

Dr. Kim has published extensively in top-tier journals, contributing valuable insights into metallurgical and materials engineering. Some of her notable publications include:

  • The CO2 sequestration by supercritical carbonation of electric arc furnace slag

    • Authors: J Kim, G Azimi
    • Year: 2021
    • Citations: 42

  • An innovative process for extracting scandium from nickeliferous laterite ore: Carbothermic reduction followed by NaOH cracking

    • Authors: J Kim, G Azimi
    • Year: 2020
    • Citations: 22

  • Recovery of scandium and neodymium from blast furnace slag using acid baking–water leaching

    • Authors: J Kim, G Azimi
    • Year: 2020
    • Citations: 20

  • Valorization of electric arc furnace slag via carbothermic reduction followed by acid baking–water leaching

    • Authors: J Kim, G Azimi
    • Year: 2021
    • Citations: 19

  • Technospheric mining of niobium and titanium from electric arc furnace slag

    • Authors: J Kim, G Azimi
    • Year: 2020
    • Citations: 16

  • Matrix complexity effect on platinum group metals analysis using inductively coupled plasma optical emission spectrometry

    • Authors: J Kim, J Anawati, G Azimi
    • Year: 2018
    • Citations: 16

  • Effect of sulfuric acid baking and caustic digestion on enhancing the recovery of rare earth elements from a refractory ore

    • Authors: R Kim, H Cho, J Jeong, J Kim, S Lee, KW Chung, HS Yoon, CJ Kim
    • Year: 2020
    • Citations: 15

  • Selective precipitation of titanium, magnesium, and aluminum from the steelmaking slag leach liquor

    • Authors: J Kim, G Azimi
    • Year: 2022
    • Citations: 13

  • Mineral carbonation of iron and steel by-products: State-of-the-art techniques and economic, environmental, and health implications

    • Authors: S Wang, J Kim, T Qin
    • Year: 2024
    • Citations: 12

  • Recent advancements in hydrometallurgy: solubility and separation

    • Authors: KN Han, R Kim, J Kim
    • Year: 2024
    • Citations: 10

Conclusion 🎯

Dr. Jihye Kim is a dedicated researcher and educator committed to advancing metallurgical and materials engineering. Her work in extractive metallurgy, critical materials recovery, and sustainable processing methods contributes to the global effort toward environmentally responsible resource management. Through her innovative research, teaching, and mentorship, Dr. Kim continues to inspire the next generation of engineers and scientists in the field of materials engineering.