Boris Tartakovsky

What is he best known for?

The fields of study he is best known for:

• Carbon dioxide
• Oxygen
• Hydrogen

Boris Tartakovsky mainly investigates Microbial fuel cell, Anode, Environmental engineering, Cathode and Hydrogen production. His Microbial fuel cell study incorporates themes from Biochemical engineering, Power output, Electrochemistry, Process engineering and Renewable energy. His Biochemical engineering research incorporates themes from Biomass, Process optimization and Bioelectrochemistry.

The various areas that Boris Tartakovsky examines in his Anode study include Chemical engineering and Control theory. His Environmental engineering research includes themes of Methane production, Electrical load, Pulp and paper industry and Optimal control. In Hydrogen production, Boris Tartakovsky works on issues like Microbial electrolysis cell, which are connected to Organic matter and Waste treatment.

His most cited work include:

• High rate membrane-less microbial electrolysis cell for continuous hydrogen production (168 citations)
• A two-population bio-electrochemical model of a microbial fuel cell. (166 citations)
• A two-population bio-electrochemical model of a microbial fuel cell. (166 citations)

What are the main themes of his work throughout his whole career to date?

His primary scientific interests are in Microbial fuel cell, Microbial electrolysis cell, Anode, Waste management and Pulp and paper industry. His Microbial fuel cell study combines topics from a wide range of disciplines, such as Power output, Environmental engineering and Electrical load. The concepts of his Microbial electrolysis cell study are interwoven with issues in Hydrogen production, Inorganic chemistry, Wastewater and Bioelectrochemical reactor.

He interconnects Cathode and Biochemical engineering in the investigation of issues within Anode. The Waste management study combines topics in areas such as Electricity and Renewable energy. His studies deal with areas such as Biomass, Hydraulic retention time, Chemical oxygen demand and Methane as well as Pulp and paper industry.

He most often published in these fields:

• Microbial fuel cell (65.08%)
• Microbial electrolysis cell (23.81%)
• Anode (23.81%)

What were the highlights of his more recent work (between 2018-2021)?

• Microbial fuel cell (65.08%)
• Biosensor (5.56%)
• Anode (23.81%)

In recent papers he was focusing on the following fields of study:

Boris Tartakovsky spends much of his time researching Microbial fuel cell, Biosensor, Anode, Environmental chemistry and Pulp and paper industry. Boris Tartakovsky combines subjects such as Daphnia magna, Maximum power principle, Electrical engineering, Voltage and Process engineering with his study of Microbial fuel cell. His Biosensor study combines topics in areas such as Wastewater, Power output and Microbial electrolysis cell.

His Anode research integrates issues from Carbon, Selenium, Selenate and Chromatography. His Carbon research is multidisciplinary, relying on both Biomass, Inorganic chemistry and Charcoal. His study in Pulp and paper industry is interdisciplinary in nature, drawing from both Effluent and Methane.

Between 2018 and 2021, his most popular works were:

• Effects of biochar anodes in rice plant microbial fuel cells on the production of bioelectricity, biomass, and methane (32 citations)
• Effects of biochar anodes in rice plant microbial fuel cells on the production of bioelectricity, biomass, and methane (32 citations)
• On-line monitoring of heavy metals-related toxicity with a microbial fuel cell biosensor. (25 citations)

In his most recent research, the most cited papers focused on:

• Carbon dioxide
• Oxygen
• Hydrogen

His primary areas of study are Microbial fuel cell, Anode, Biosensor, Methane and Pulp and paper industry. His studies in Microbial fuel cell integrate themes in fields like Microorganism, Repeatability, Toxicity and Environmental chemistry, Heavy metals. Boris Tartakovsky combines Anode and Monitoring tool in his research.

Boris Tartakovsky has included themes like Power output, Chromatography, Wastewater and Microbial electrolysis cell in his Biosensor study. His Methane research integrates issues from Carbon sequestration, Cathode, Supercapacitor, Electrochemistry and Energy storage. His Pulp and paper industry study combines topics in areas such as Biomass, Carbon and Charcoal.

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