1. Clarifying specific proteins involved in EET pathways between G. sulfurreducens and Fe(III) nanoparticles is helpful for the application of genetic engineering in microbial remediation of pollutants in both laboratory and field studies. In addition, G. sulfurreducens produces higher current densities than any other known organism in microbial fuel cells (MFC), as an emerging and renewable energy technique;Fe ;;methyl-tert-butyl ether, and toxic metals) through EET pathways,2000

2. Reevaluation of colorimetric iron determination methods commonly used in geomicrobiology;J Braunschweig;J. Microbiol. Meth,2012

3. Iron oxide nanoparticles in geomicrobiology: From biogeochemistry to bioremediation;J Braunschweig;N. Biotechnol,2013

4. Antimony release and volatilization from organicrich and iron-rich submerged soils;J N Caplette;J. Hazard. Mater,2024