Luigi Campanella

What is he best known for?

The fields of study he is best known for:

• Enzyme
• Organic chemistry
• Biochemistry

Luigi Campanella mostly deals with Chromatography, Biosensor, Immobilized enzyme, Tyrosinase and Enzyme electrode. Particularly relevant to Detection limit is his body of work in Chromatography. His Biosensor research incorporates elements of Superoxide dismutase, Organic chemistry, Antioxidant and Enzyme.

His Tyrosinase study which covers Solvent effects that intersects with Toluene. As a member of one scientific family, Luigi Campanella mostly works in the field of Enzyme electrode, focusing on Clark electrode and, on occasion, Phenol and Paraoxon. Luigi Campanella focuses mostly in the field of Solvent, narrowing it down to topics relating to Aqueous solution and, in certain cases, Reaction rate constant, Hydrogen peroxide, Rate equation and Chromium.

His most cited work include:

• Trace metals in seagrass, algae and molluscs from an uncontaminated area in the Mediterranean (185 citations)
• The reduction of chromium (VI) by iron (II) in aqueous solutions (161 citations)
• Arsenite oxidation by H2O2 in aqueous solutions (158 citations)

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

His scientific interests lie mostly in Chromatography, Biosensor, Amperometry, Membrane and Inorganic chemistry. His research in Chromatography intersects with topics in Analytical chemistry, Clark electrode and Enzyme. His Biosensor study combines topics from a wide range of disciplines, such as Immobilized enzyme, Tyrosinase, Organic chemistry and Enzyme electrode.

His Enzyme electrode research is multidisciplinary, relying on both Choline oxidase and Solvent. He has included themes like Substrate and Hydrogen peroxide in his Amperometry study. His Membrane research integrates issues from Chemical engineering, Electrode and Ion selective electrode.

He most often published in these fields:

• Chromatography (36.34%)
• Biosensor (21.99%)
• Amperometry (13.43%)

What were the highlights of his more recent work (between 2013-2021)?

• Chromatography (36.34%)
• Amperometry (13.43%)
• Ethanol (2.55%)

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

Luigi Campanella focuses on Chromatography, Amperometry, Ethanol, Chemometrics and Catalysis. The Chromatography study combines topics in areas such as Antioxidant capacity, Biosensor, Decane, Chloramphenicol and Selectivity. His Amperometry study integrates concerns from other disciplines, such as Detection limit and Linear range.

His Ethanol study combines topics in areas such as Alcohol, Methanol and Enzyme. His Chemometrics study also includes

• Thermogravimetry which intersects with area such as Thermal analysis and Bioinformatics,
• Mineralogy which is related to area like Analytical chemistry,
• Principal component analysis which is related to area like Biological system,
• Near-infrared spectroscopy, which have a strong connection to Derivative and Fossil bone. His work is dedicated to discovering how Catalysis, Fuel cells are connected with Ethanol content and other disciplines.

Between 2013 and 2021, his most popular works were:

• New immunosensor for β-lactam antibiotics determination in river waste waters (29 citations)
• Simple and suitable immunosensor for β-lactam antibiotics analysis in real matrixes: milk, serum, urine. (24 citations)
• Catalytic fuel cell used as an analytical tool for methanol and ethanol determination. Application to ethanol determination in alcoholic beverages (18 citations)

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

• Enzyme
• Organic chemistry
• Biochemistry

His main research concerns Chromatography, Amperometry, Enzyme, Ethanol and Catalysis. The concepts of his Chromatography study are interwoven with issues in Selectivity, Decane, Pesticide and Biosensor. His study in Biosensor is interdisciplinary in nature, drawing from both Antioxidant capacity, JAMS, Food products and Amperometric biosensor.

His Amperometry study incorporates themes from Detection limit and Linear range. In his research, Process engineering is intimately related to Methanol, which falls under the overarching field of Ethanol. His research in Catalysis tackles topics such as Ethanol content which are related to areas like Fuel cells.

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