Education
Abraham Badu-Tawiah’s educational journey reflects his dedication to chemistry and scientific excellence. He earned his Bachelor’s and Master’s degrees in Chemistry from Kwame Nkrumah University of Science and Technology in Ghana, where he was mentored by esteemed professors. Badu-Tawiah further pursued a Master’s degree in Chemistry at Indiana University of Pennsylvania, culminating in a PhD from Purdue University under the guidance of Professor R. Graham Cooks. His rigorous training continued with a postdoctoral fellowship at Harvard University, where he worked with Professor George M. Whitesides. This impressive educational background has equipped him with a strong foundation in analytical chemistry, allowing him to make significant contributions to the field through innovative research and development.
Professional Experience
Abraham Badu-Tawiah’s professional trajectory is marked by a series of significant academic appointments at The Ohio State University. He began his career as an Assistant Professor in the Department of Chemistry and Biochemistry and has since progressed through the ranks to his current role as a Fox Professor. His interdisciplinary collaboration spans various departments, including Microbial Infection and Immunity and Internal Medicine, reflecting his commitment to bridging chemistry with healthcare. Badu-Tawiah has also served as an adjunct faculty member in multiple capacities, enhancing educational opportunities across disciplines. His involvement in initiatives at the Comprehensive Cancer Center exemplifies his dedication to integrating research with real-world health challenges. Through his extensive professional experience, Badu-Tawiah has established himself as a leader in analytical chemistry and mass spectrometry.
Research Interests
Abraham Badu-Tawiah’s research interests lie at the intersection of analytical chemistry and healthcare, focusing on innovative methods to improve disease diagnosis, particularly in underserved populations. His current projects explore diverse areas, including panoptic mass spectrometry, accelerated droplet chemistry, and mass spectrometry-based immunoassays. Badu-Tawiah is particularly interested in developing portable, paper-based microfluidic devices that allow for sensitive and affordable disease detection. His work on dry-state microsampling platforms aims to revolutionize blood sampling methods, making them more accessible and practical for use in remote areas. Additionally, Badu-Tawiah is passionate about outreach initiatives that support minorities in STEM, fostering inclusivity and encouraging future generations to pursue careers in science. Overall, his research is driven by a commitment to societal impact and advancing scientific knowledge.
Research Skills
Abraham Badu-Tawiah possesses a diverse range of research skills that underpin his contributions to analytical chemistry. His expertise in mass spectrometry enables him to develop innovative analytical techniques for complex biological samples. Badu-Tawiah is proficient in microfluidics, which he applies to create novel platforms for disease diagnosis and analysis. His work involves designing and executing experiments, interpreting complex data, and optimizing methodologies for real-world applications. Furthermore, he excels in interdisciplinary collaboration, working alongside experts from various fields to enhance the impact of his research. His experience in securing significant funding from organizations such as the NIH and NSF showcases his ability to articulate and promote research ideas effectively. Badu-Tawiah’s skills in education and mentorship also play a crucial role in shaping the next generation of scientists.
Awards and Honors
Abraham Badu-Tawiah’s exceptional contributions to the field of analytical chemistry have earned him numerous prestigious awards and recognitions. In 2021, he was honored as the Early Career Innovator of the Year at The Ohio State University, highlighting his impactful research. His achievements include receiving the Sloan Fellowship and the NIH R35 MIRA Award for New Investigators, demonstrating his promise in advancing scientific knowledge. Badu-Tawiah has also been recognized with the ACS Arthur F. Findeis Award for Achievements by a Young Analytical Scientist and the Eli Lilly Young Investigator Award. His selection as an Emerging Investigator by esteemed journals underscores his influence in the scientific community. Collectively, these accolades reflect Badu-Tawiah’s dedication to research excellence and his commitment to addressing pressing health challenges through innovative scientific approaches.
Conclusion 🎉
Abraham Badu-Tawiah is a highly qualified candidate for the Best Researcher Award. His innovative research contributions, strong community outreach, and recognition within the scientific community highlight his dedication and impact in the field of analytical chemistry. While there are areas for improvement, particularly in dissemination and collaboration, his overall profile aligns well with the ideals of this award. He exemplifies a commitment not only to scientific advancement but also to the betterment of society through education and innovation.
Publications Top Notes
- Comparison of three rapid diagnostic tests for Plasmodium falciparum diagnosis in Ghana
- Authors: Kayode, T.A., Addo, A.K., Addison, T.K., Badu, K., Koepfli, C.
- Journal: Malaria Journal
- Year: 2024
- Volume: 23(1)
- Pages: 265
- Citations: 0
- Multi-Analyte Concentration Analysis of Marine Samples through Regression-Based Machine Learning
- Authors: North, N.M., Clark, J.B., Enders, A.A.A., Badu-Tawiah, A., Allen, H.C.
- Journal: ACS Earth and Space Chemistry
- Year: 2024
- Volume: 8(8)
- Pages: 1549–1559
- Citations: 0
- Mass spectrometry for metabolomics analysis: Applications in neonatal and cancer screening
- Authors: Grooms, A.J., Burris, B.J., Badu-Tawiah, A.K.
- Journal: Mass Spectrometry Reviews
- Year: 2024
- Volume: 43(4)
- Pages: 683–712
- Citations: 2
- The Growing Influence of Mass Spectrometry in Measurement Science
- Authors: Badu-Tawiah, A.K.
- Journal: ACS Measurement Science Au
- Year: 2023
- Volume: 3(6)
- Pages: 390–392
- Citations: 0
- Dual Tunability for Uncatalyzed N-Alkylation of Primary Amines Enabled by Plasma-Microdroplet Fusion
- Authors: Grooms, A.J., Nordmann, A.N., Badu-Tawiah, A.K.
- Journal: Angewandte Chemie – International Edition
- Year: 2023
- Volume: 62(51)
- Article Number: e202311100
- Citations: 4
- Charge inversion under plasma-nanodroplet reaction conditions excludes Fischer esterification for unsaturated fatty acids: a chemical approach for type II isobaric overlap
- Authors: Kulyk, D.S., Baryshnikov, G.V., Damale, P.S., Maher, S., Badu-Tawiah, A.K.
- Journal: Chemical Science
- Year: 2023
- Volume: 15(3)
- Pages: 914–922
- Citations: 2
- Two-dimensional isomer differentiation using liquid chromatography-tandem mass spectrometry with in-source, droplet-based derivatization
- Authors: Heiss, D.R., Amoah, E., Badu-Tawiah, A.K.
- Journal: Analyst
- Year: 2023
- Volume: 148(20)
- Pages: 5270–5278
- Citations: 1
- High-Throughput Nanoliter Sampling and Direct Analysis of Biological Fluids Using Droplet Imbibition Mass Spectrometry
- Authors: Sahraeian, T., Amoah, E., Kulyk, D.S., Badu-Tawiah, A.K.
- Journal: Analytical Chemistry
- Year: 2023
- Volume: 95(18)
- Pages: 7093–7099
- Citations: 3
- Mass Spectrometry Approach for Differentiation of Positional Isomers of Saccharides: Toward Direct Analysis of Rare Sugars
- Authors: Amoah, E., Kulyk, D.S., Callam, C.S., Hadad, C.M., Badu-Tawiah, A.K.
- Journal: Analytical Chemistry
- Year: 2023
- Volume: 95(13)
- Pages: 5635–5642
- Citations: 5
- Plasma-Droplet Reaction Systems: A Direct Mass Spectrometry Approach for Enhanced Characterization of Lipids at Multiple Isomer Levels
- Authors: Grooms, A.J., Nordmann, A.N., Badu-Tawiah, A.K.
- Journal: ACS Measurement Science Au
- Year: 2023
- Volume: 3(1)
- Pages: 32–44
- Citations: 6