Chengdu University of Technology - China
AUTHOR PROFILE
SUMMARY
Xin Cheng is a geochemistry specialist with significant research achievements in environmental geochemistry and atmospheric science. Work focuses on pollution assessment, geochemical behavior of elements, and the relationship between microbial diversity and soil contamination. Contributions include multidisciplinary approaches combining geochemical modeling, isotopic tracing, and environmental monitoring. Recognized for rigorous analytical methods and impactful findings published in reputed journals, advancing knowledge in ecological and environmental risk studies. Affiliated with the College of Ecology and Environment at Chengdu University of Technology, with over a decade of research experience spanning academia and applied geosciences.
EDUCATION
Completed B.Sc., M.Sc., and Ph.D. in Geochemistry at Chengdu University of Technology, China. The academic path spanned from 2005 to 2017, providing a strong foundation in geochemical theory, laboratory techniques, and environmental applications. Research training during these years emphasized elemental cycling, pollution characterization, and isotopic analysis, setting the stage for further investigation into atmospheric and soil contaminants. Doctoral work refined capabilities in data interpretation and environmental field studies, contributing to published research in both national and international platforms.
PROFESSIONAL EXPERIENCE
Serving at the College of Ecology and Environment, Chengdu University of Technology since 2017. Responsibilities include conducting field research, supervising students, publishing scholarly articles, and participating in environmental impact assessments. A key contributor to the academic community through teaching and collaborative research projects. Work involves close partnerships with interdisciplinary teams addressing contamination from mining, industrial waste, and nuclear facilities. Experience includes handling advanced instrumentation, sample preparation, and statistical analysis of environmental data for policy-relevant outcomes.
RESEARCH INTEREST
Research spans environmental geochemistry, urban pollution, atmospheric particulates, and microbial interactions with contaminants. Investigations target heavy metals, uranium enrichment, antimony pollution, and geochemical transformations in industrial zones. Emphasis on Southwest China as a region of study due to its unique geological and industrial settings. Interests also extend to risk assessment methodologies, isotopic fingerprinting, and the role of soil microbiota in contaminant dynamics. Goals include understanding pollutant pathways and informing remediation strategies for environmental sustainability.
AWARD AND HONOR
While specific awards are not detailed in the CV, recognition comes through high-impact publications and consistent contribution to environmental science. Publication in journals such as Science of the Total Environment and Aerosol and Air Quality Research signals peer acknowledgment. Collaborative authorship with national research figures and repeated first-author credits reflect academic standing. Participation in major environmental projects and conference presentations suggests further accolades at institutional and scientific levels, contributing to visibility in the geochemistry research community.
RESEARCH SKILL
Expertise includes environmental sampling, geochemical analysis, and isotope geochemistry. Skilled in the use of modern analytical tools for pollutant detection and quantification, including mass spectrometry and spectroscopic methods. Proficient in data modeling, GIS-based mapping, and risk evaluation frameworks. Able to interpret complex datasets linking geochemical patterns with anthropogenic activities. Strong background in collaborative and interdisciplinary research, integrating microbiological and geophysical insights to tackle environmental challenges with robust methodology.
CONCLUSION
Xin Cheng demonstrates a clear trajectory of impactful research in environmental geochemistry, especially within complex polluted ecosystems. Integrates diverse methodologies to assess and mitigate contamination risks, offering valuable scientific input for environmental management. Professional presence in both academic and applied sectors strengthens the role as a thought leader in geoscience. Ongoing research promises continued contributions to pollution control and sustainable environmental practices. A suitable candidate for recognitions related to environmental and geochemical research excellence.