Macdonald Amoah at Payne Institute for Public Policy, United States.
Macdonald Budu Amoah is a dedicated researcher and skilled mining engineer with a focus on critical minerals, geopolitics, and earth mechanics. His work explores essential topics in mining engineering, especially in areas like critical minerals onshoring, the National Defense Stockpiling Program, and innovative excavation technologies. Through his academic and professional experiences at the Colorado School of Mines and the Payne Institute for Public Policy, Amoah has developed a robust portfolio in research, analysis, and project development. His contributions are marked by high academic performance, significant research outputs, and commitment to advancing sustainable mining practices and national security interests.
Publication Profile
ORCID
Education
Macdonald Amoah earned a Master of Science in Mining Engineering from the Colorado School of Mines in June 2023, achieving an impressive GPA of 3.81. This academic foundation provided him with in-depth knowledge and technical expertise, enabling him to conduct advanced research in critical minerals and mining technology. His education was grounded in rigorous theoretical learning and hands-on project work, where he explored complex subjects like machine optimization, dust generation, and lunar surface excavation. His background positions him as an insightful researcher with a comprehensive understanding of mining engineering’s challenges and evolving dynamics.
Professional Experience
Amoah brings a wealth of research experience from his roles at the Colorado School of Mines, including as a Research Associate and Graduate Research Assistant at the Payne Institute for Public Policy. His contributions include examining the geopolitics of critical minerals, optimizing machinery for excavation, and developing algorithms for NASA’s lunar excavation projects. He has also worked on NIOSH-funded projects addressing dust categorization and its health implications. His experience extends to public presentations, such as at the Critical Minerals Symposium, where he shared insights on national defense and critical mineral supply. This extensive experience highlights his expertise and research acumen.
Research Focus
Macdonald Amoah’s research primarily revolves around mining engineering, critical minerals geopolitics, and national defense strategies. He has engaged in high-impact studies, including machine optimization, dust categorization and health implications, and development of excavation technologies for the lunar surface. His work is critical to advancing sustainable mining practices and strengthening national security through critical mineral onshoring and ally shoring. His research is aligned with industry needs and has national and global relevance, contributing to fields such as space exploration and health safety standards in mining. Amoah’s work embodies innovative problem-solving in mining and policy-focused research.
Awards and Honors
Macdonald Amoah has been recognized for his academic and professional potential with notable awards, including the Google Africa Developer Scholarship Program (2020) and the Commonwealth of Learning Scholarship in partnership with Coursera. These honors underscore his commitment to expanding his technical skills and contributions to critical research fields. His achievements reflect a commitment to continuous learning, professional excellence, and impactful research. Amoah’s awards and scholarships reflect his drive to excel in academia and beyond, solidifying his reputation as a talented and forward-thinking researcher in the field of mining engineering and public policy.
Macdonald Budu Amoah’s strong academic and research credentials, coupled with his practical contributions to projects of national significance, make him a highly suitable candidate for the Best Researcher Award. His work aligns well with the award’s emphasis on impactful research and innovation, showcasing not only technical skill but also a commitment to solving real-world challenges in the field of mining engineering and critical mineral geopolitics. With minor expansion in publishing, his profile could further strengthen his potential for this recognition.
Publication Top Notes
Title:Critical minerals mining and Native American sovereignty: Comparing case studies of lithium, copper, antimony, nickel and graphite mining in the United States
Authors:(Authors not provided in your query; if you have author names, please provide them for a complete citation)
Year:2024
Citation:Author(s). (2024). Critical minerals mining and Native American sovereignty: Comparing case studies of lithium, copper, antimony, nickel and graphite mining in the United States. The Extractive Industries and Society. https://doi.org/10.1016/j.exis.2024.101557