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JOHN J. YANG, Ph..D

 

Associate Professor

Environmental Chemistry

 

Tel: 573-681-5383

Email: yangj@lincolnu.edu

Office: 310 Foster Hall, Lincoln University

 

Education

 

Ph.D. 1995. University of Missouri

 

Research

 

Chemistry of metal contaminants

Environmental risk assessment

Soil and water remediation

Soil-plant interactions.

 

Research Summary

 

Yang’s research interests are primarily on chemistry aspects of the soil-plant-contaminant interactions in terrestrial ecosystem, in context of specie transformation, environmental fates, risk assessment, and remediation. Recent activities are focused on in situ metal immobilization in contaminated soils for exposure and ecological risk reduction; Aqueous metal removal by chemically-modified activated carbons and nano-structured carbon tues; Plant species-specific rhizodegradation of munitions explosives; Application of fluorescent emission spectroscopy for water quality assessment; and Development of micro-chip sensor array for studying the rhizosphere interactions.

 

Courses Teaching

 

Environmental/Soil Chemistry

Environmental Risk Assessment & Monitoring

Environmental Contamination and Remediation

Hazardous Waste Management

Capstone in Environmental Science

 

Selected Publications (2006-2007)

 

Hua, B., Yang J., Deng, B.L. 2007. 

Radioactive Waste Management Review. Water Environmental Research 79 (10): 1903-1928

 

Yang, J. 2007. 

Soluble phosphate treatment for in-situ lead immobilization and risk reductions in contaminated urban soil. Proceeding of the Principle and Application of Risk-Based Land Management. CRS, Australia. pp39-45

 

Vaughan, Jr., Yang, J., R.L., Reed, B.E. 2007 

Characterization and Surface Acidity Modeling of an Iron Oxide Impregnated Activated Carbon. J. Absorption Sci. and Technol. 25 (5): 295-310

  

Yang, J., Y. L. Li, C. L. Zhang, and B. L. Deng. 2007. 

In-situ formation of pyromorphite from labile lead minerals. Land Contam. Reclam. 5 (4): 453-458

 

Yang J., X. Tang. 2007.

Water quality and ecotoxocity as influenced by phosphate treatments in metal-contaminated soil and mining wastes. Environ. Monitor. Restor. 3: 21-33

 

        Gu, Z. M., B. L. Deng, Yang, J. 2007. 

        Synthesis and evaluation of iron-containing ordered mesoporous carbons (FeOMC) for arsenic adsorption. Microporous and Mesoporous Materials. 102: 265-273

 

        Yang, J., R. M. Hu. R. C. Bu. 2006 

        Microscale spatial variability of redox potential in surface soil. Soil Sci. J. 171:10:747-753

 

        Hua, B., B. L. Deng, and J. Yang. 2007. 

        Incorporation of chromate into calcite structure during coprecipitation.   Water, Air & Soil Pollution. 179:381-390

 

Yang, J., and D.E. Mosby 2006.

Field assessment of treatment efficacy by three methods of phosphoric acid application in lead contaminated urban soil. Sci. Total Environ. 366:136-142

 

Li, Y., Zhang C. L., Vali H., Yang, J., and Palumbo A. V. 2006 

Reduction of iron oxides enhanced by a sulfate-reducing bacterium and biogenic H₂S.   Geomicrobiology. 23:103-117