Dr. Dongmei Qi is an Associate Professor at Xinjiang University, China, specializing in high-temperature and high-pressure experimental petrology. With a PhD from Leibniz University Hannover (Germany) and MSc/BSc from China University of Geosciences (Wuhan), she expertly investigates ore-forming processes using advanced experimental techniques. Her research focuses on copper solubility, partitioning, and isotopic fractionation in magmatic-hydrothermal systems. Dr. Qi has led and contributed to numerous national and regional research projects on porphyry systems, rare metals, and metallogenesis. Her work significantly enhances our understanding of ore deposit formation, making her a leading figure in geoscience and mineral exploration research.
Profile
Scopus
🎓 Early Academic Pursuits
Dr. Dongmei Qi began her academic journey with a keen interest in the geological sciences. She pursued both her Bachelor’s and Master’s degrees at the prestigious China University of Geosciences (Wuhan), one of China’s leading institutions for Earth sciences. Her strong academic performance and curiosity in understanding the Earth’s deep processes laid a robust foundation for her future research pursuits. Recognizing the global value of cross-cultural and cutting-edge research, she further obtained her Ph.D. in Experimental Petrology from the Institute of Mineralogy at Leibniz University Hannover (LUH), Germany, where she was trained in advanced experimental methods and theoretical modeling under high-pressure and high-temperature conditions.
🧪 Professional Endeavors
Currently serving as an Associate Professor at Xinjiang University, Dr. Qi is a prominent faculty member in the Earth Science department. Her academic and research portfolio is marked by the use of sophisticated experimental equipment such as cold seal pressure vessels, internally heated pressure vessels, quartz-pyrex vessels, and large-volume fluid reaction cells. These tools enable her to simulate and analyze the behavior of minerals and fluids under extreme conditions that mimic the Earth’s crust and mantle environments.
Dr. Qi’s teaching responsibilities are paired with supervising graduate students, mentoring young researchers, and collaborating with international peers. Her blend of teaching, mentoring, and high-impact research defines her professional identity in the academic world.
🔬 Contributions and Research Focus
Dr. Dongmei Qi’s research is deeply rooted in experimental petrology, with a particular focus on ore-forming processes. She investigates copper solubility, partitioning behavior, and isotopic fractionation in magmatic-hydrothermal systems, which are crucial for understanding the formation and enrichment of metal deposits.
Her ongoing and completed research projects, totaling 10 major grants, are testament to her versatility and expertise. Some of her key projects include:
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“Nanoscale Characterization Sulphides Saturation in Porphyry Systems” – Focused on the giant Tuwu Porphyry Copper Deposit.
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“Rare Metal Enrichment Processes in Highly Fractionated Granites” – Investigating the Altay Pegmatites in Xinjiang.
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“Copper Partitioning Between Immiscible High-Silica Melts and Fluids” – A detailed experimental approach funded by the National Natural Science Foundation of China.
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“Transport of Metals in Fluids” – Conducted in collaboration with DAAD, Germany, shedding light on ore transport mechanisms.
Through these projects, Dr. Qi has advanced knowledge in mineral exploration, rare metal enrichment, and high-temperature geochemical processes—offering critical insights for both academia and the mining industry.
🏆 Accolades and Recognition
Dr. Qi’s scientific merit has been acknowledged through several prestigious funding programs and honors, such as:
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Recipient of the “Tianshan Elite” Young Top Talent Program (2025–2027), a competitive initiative supporting high-potential researchers in Xinjiang.
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Principal investigator in projects supported by China’s National Key Research and Development Program and the Xinjiang Uygur Autonomous Region.
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Participant in international scientific exchange programs like the DAAD Research Fellowship, which reflects her international recognition.
These accolades underscore her excellence in scientific innovation, her leadership in interdisciplinary collaboration, and her dedication to promoting regional and national scientific progress.
🌍 Impact and Influence
Dr. Qi’s research has far-reaching implications for resource sustainability, mineral exploration, and environmental geochemistry. By examining processes at the atomic to nanoscale levels, she has contributed to predictive models for ore deposit formation, thereby helping geologists and mining companies locate and extract valuable minerals more efficiently and sustainably.
Her work also supports the broader goals of green energy transition, especially in relation to rare metals like lithium and niobium, which are critical for battery technology and renewable energy solutions.
Moreover, as a female researcher in a highly technical and traditionally male-dominated field, Dr. Qi serves as an inspirational figure for young women in STEM across China and beyond.
🌱 Legacy and Future Contributions
With her sustained commitment to scientific excellence and innovation, Dr. Dongmei Qi’s legacy is still in the making. Her future aspirations include:
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Expanding interdisciplinary collaborations in geochemistry, environmental science, and mineral physics.
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Developing AI-integrated mineral exploration models that combine petrological data with machine learning.
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Continuing to mentor a new generation of geoscientists who can carry forward the mantle of responsible and intelligent Earth resource utilization.
Her evolving body of work is certain to contribute significantly to China’s strategic mineral resource initiatives and to the global geological community.
Publication Top Notes
Reaction between Cu-bearing minerals and hydrothermal fluids at 800°C and 200 MPa: constraints from synthetic fluid inclusions.
Author: Dongmei Qi*, Harald Behrens, Roman Botcharnikov, Insa Derrey, Francois Holtz, Chao Zhang, Xiaoyan Li .
Journal: American Mineralogist