What is he best known for?
The fields of study he is best known for:
- Organic chemistry
- Catalysis
- Oxygen
His scientific interests lie mostly in Sorption, Environmental chemistry, Soil water, Adsorption and Phenanthrene.
The Sorption study combines topics in areas such as Partition coefficient, Reactivity, Mineralogy, Hydrocarbon and Sorbent.
His biological study spans a wide range of topics, including Soil organic matter, Carbon, Soil contamination and Pollutant.
In his study, Environmental engineering is inextricably linked to Aquatic ecosystem, which falls within the broad field of Pollutant.
His work carried out in the field of Soil water brings together such families of science as Analytical chemistry, Water pollution, Freundlich equation and Solubility.
His Adsorption research incorporates elements of Inorganic chemistry, Waste management, Chromatography and Molecule.
His most cited work include:
- SEQUESTRATION OF HYDROPHOBIC ORGANIC CONTAMINANTS BY GEOSORBENTS (787 citations)
- A distributed reactivity model for sorption by soils and sediments. 1. Conceptual basis and equilibrium assessments (465 citations)
- Sorption phenomena in subsurface systems: Concepts, models and effects on contaminant fate and transport (464 citations)
What are the main themes of his work throughout his whole career to date?
His scientific interests lie mostly in Environmental chemistry, Sorption, Adsorption, Activated carbon and Organic matter.
His Environmental chemistry research also works with subjects such as
- Environmental remediation most often made with reference to Soil contamination,
- Contamination that intertwine with fields like Environmental engineering,
- Pollutant that connect with fields like Water pollution.
His Sorption research integrates issues from Soil water, Freundlich equation, Sorbent and Phenanthrene.
Walter J. Weber has researched Soil water in several fields, including Reactivity and Diffusion.
His Adsorption research is multidisciplinary, incorporating perspectives in Inorganic chemistry, Water treatment, Chromatography, Carbon and Chemical engineering.
His Organic matter study integrates concerns from other disciplines, such as Dissolved organic carbon, Mineralization and Phenol.
He most often published in these fields:
- Environmental chemistry (39.29%)
- Sorption (30.80%)
- Adsorption (27.68%)
What were the highlights of his more recent work (between 2002-2017)?
- Environmental chemistry (39.29%)
- Organic chemistry (11.61%)
- Oxidative coupling of methane (4.91%)
In recent papers he was focusing on the following fields of study:
Walter J. Weber spends much of his time researching Environmental chemistry, Organic chemistry, Oxidative coupling of methane, Organic matter and Chemical engineering.
His Environmental chemistry research incorporates themes from Soil contamination, Biodegradation, Sorption and Pyrene.
The concepts of his Sorption study are interwoven with issues in Desorption, Soil properties and Microscale chemistry.
His research in Organic matter intersects with topics in Dissolved organic carbon and Persistent organic pollutant.
His Chemical engineering research is multidisciplinary, incorporating elements of Carbon, Nanotechnology and Zerovalent iron.
His research integrates issues of Waste management, Adsorption and Superheated water in his study of Carbon.
Between 2002 and 2017, his most popular works were:
- Bioaccumulation of radio-labeled carbon nanotubes by Eisenia foetida. (144 citations)
- Ecological uptake and depuration of carbon nanotubes by Lumbriculus variegatus. (136 citations)
- Transformation and removal of bisphenol A from aqueous phase via peroxidase mediated oxidative coupling reactions: efficacy, products, and pathways. (133 citations)
In his most recent research, the most cited papers focused on:
- Organic chemistry
- Catalysis
- Oxygen
Walter J. Weber mostly deals with Carbon nanotube, Environmental chemistry, Bioaccumulation, Nanotechnology and Chemical engineering.
His work in Carbon nanotube covers topics such as Nanotoxicology which are related to areas like Nanotube, Surface charge, Aqueous solution and Carbon.
His Environmental chemistry study combines topics in areas such as Persistent organic pollutant, Hydrocarbon and Sorption.
His Persistent organic pollutant research includes themes of Organic matter, Phenol, Biotransformation and Phenanthrene.
His research investigates the link between Bioaccumulation and topics such as Pyrene that cross with problems in Soil contamination, Soil classification, Soil water, Earthworm and Methane.
His Chemical engineering study incorporates themes from Reactivity and Polyelectrolyte.
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