What is he best known for?
The fields of study Gert Bernhard is best known for:
When carried out as part of a general Ferrihydrite research project, his work on Adsorption is frequently linked to work in Sorption, therefore connecting diverse disciplines of study.
Sorption and Ferrihydrite are the subject areas of his Adsorption study.
His study on Programming language is interrelated to topics such as Resolution (logic) and State (computer science).
Gert Bernhard combines topics linked to Programming language with his work on State (computer science).
His research is interdisciplinary, bridging the disciplines of Ultraviolet and Optics.
His research combines Optics and Ultraviolet.
In his work, Gert Bernhard performs multidisciplinary research in Uranium and Nuclear chemistry.
In his works, he undertakes multidisciplinary study on Nuclear chemistry and Uranium.
His study connects High resolution and Remote sensing.
His most cited work include:
- Uranyl(VI) carbonate complex formation: Validation of the Ca2UO2(CO3)3(aq.) species (355 citations)
- Speciation of Uranium in Seepage Waters of a Mine Tailing Pile Studied by Time-Resolved Laser-Induced Fluorescence Spectroscopy (TRLFS) (216 citations)
- ROBL – a CRG beamline for radiochemistry and materials research at the ESRF (182 citations)
What are the main themes of his work throughout his whole career to date
In his works, Gert Bernhard conducts interdisciplinary research on Organic chemistry and Environmental chemistry.
Gert Bernhard undertakes multidisciplinary investigations into Environmental chemistry and Organic chemistry in his work.
Borrowing concepts from Optics, Gert Bernhard weaves in ideas under Quantum mechanics.
He combines Optics and Quantum mechanics in his research.
By researching both Inorganic chemistry and Physical chemistry, he produces research that crosses academic boundaries.
His research on Physical chemistry often connects related areas such as Aqueous solution.
Aqueous solution and Ion are two areas of study in which Gert Bernhard engages in interdisciplinary work.
In his research, Gert Bernhard undertakes multidisciplinary study on Ion and Inorganic chemistry.
Gert Bernhard integrates Meteorology with Remote sensing in his research.
Gert Bernhard most often published in these fields:
- Organic chemistry (42.45%)
- Quantum mechanics (35.25%)
- Inorganic chemistry (31.65%)
What were the highlights of his more recent work (between 2017-2022)?
- Meteorology (86.67%)
- Atmospheric sciences (80.00%)
- Ozone (60.00%)
In recent works Gert Bernhard was focusing on the following fields of study:
His Meteorology study frequently intersects with other fields, such as Atmosphere (unit).
His Atmosphere (unit) study often links to related topics such as Meteorology.
His work in Atmospheric sciences is not limited to one particular discipline; it also encompasses Solar irradiance.
In his research, he undertakes multidisciplinary study on Solar irradiance and Irradiance.
His study connects Quantum mechanics and Irradiance.
He integrates Quantum mechanics with Optics in his study.
His studies link Radiation with Optics.
In his works, Gert Bernhard performs multidisciplinary study on Radiation and Ultraviolet.
In his articles, Gert Bernhard combines various disciplines, including Ultraviolet and Ozone depletion.
Between 2017 and 2022, his most popular works were:
- State of the Climate in 2018 (141 citations)
- Ozone depletion, ultraviolet radiation, climate change and prospects for a sustainable future (104 citations)
- Ozone—climate interactions and effects on solar ultraviolet radiation (102 citations)
In his most recent research, the most cited works focused on:
- Ozone depletion
- Ozone layer
- Climate change
Gert Bernhard integrates Meteorology with Oceanography in his study.
He performs multidisciplinary studies into Oceanography and Meteorology in his work.
Gert Bernhard undertakes interdisciplinary study in the fields of Ozone layer and Ozone through his research.
His Ozone study often links to related topics such as Montreal Protocol.
His study in Climatology extends to Montreal Protocol with its themes.
His multidisciplinary approach integrates Climatology and Atmospheric sciences in his work.
Atmospheric sciences and Ozone layer are commonly linked in his work.
He conducts interdisciplinary study in the fields of Ozone depletion and Ultraviolet through his works.
He performs integrative study on Ultraviolet and Ozone depletion.
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