“The application of electrochemical tools for in situ measurements in aquatic systems”, Electroanalysis, vol. 12, pp. 401–412, 2000.
, “Chemical speciation drives hydrothermal vent ecology”, Nature, vol. 410, pp. 813–816, 2001.
, “A continuous flow electrochemical cell for analysis of chemical species and ions at high pressure: Laboratory, shipboard and hydrothermal vent results.”, in Environmental electrochemistry: Analyses of trace element biogeochemistry, Washington, D. C.: American Chemical Society, 2002, pp. 54–73.
, “A continuous flow electrochemical cell for analysis of chemical species and ions at high pressure: Laboratory, shipboard and hydrothermal vent results.”, in Environmental electrochemistry: Analyses of trace element biogeochemistry, Washington, D. C.: American Chemical Society, 2002, pp. 54–73.
, “In situ voltammetry at deep-sea hydrothermal vents”, in Environmental electrochemistry: Analyses of trace element biogeochemistry, American Chemical Society, 2002, pp. 40–51.
, “Sulfur speciation monitored in situ with solid state gold amalgam voltammetric microelectrodes: Polysulfides as a special case in sediments, microbial mats and hydrothermal vent waters”, Journal of Environmental Monitoring, vol. 3, pp. 61–66, 2001.
, “Use of voltammetric solid-state (micro)electrodes for studying biogeochemical processes: Laboratory measurements to real time measurements with an in situ electrochemical analyzer (ISEA)”, Marine Chemistry, vol. 108, pp. 221–235, 2008.
,