What is she best known for?
The fields of study she is best known for:
- Enzyme
- Organic chemistry
- Amino acid
Her primary scientific interests are in Photochemistry, Analytical chemistry, Biophysics, Membrane and Phosphorescence.
Her Photochemistry research incorporates themes from Tryptophan and Small molecule.
Her work deals with themes such as Body fluid and Quenching, which intersect with Analytical chemistry.
Her study in Biophysics is interdisciplinary in nature, drawing from both Endoplasmic reticulum, Biochemistry, ATPase and Fluorophore.
Her work in Membrane addresses subjects such as Diffusion, which are connected to disciplines such as Dimyristoyl Lecithin.
The Phosphorescence study combines topics in areas such as Quantum yield and Aqueous solution.
Her most cited work include:
- An optical method for measurement of dioxygen concentration based upon quenching of phosphorescence. (522 citations)
- Imaging of phosphorescence: a novel method for measuring oxygen distribution in perfused tissue (432 citations)
- The oxygen dependence of mitochondrial oxidative phosphorylation measured by a new optical method for measuring oxygen concentration. (330 citations)
What are the main themes of her work throughout her whole career to date?
Her main research concerns Photochemistry, Analytical chemistry, Phosphorescence, Cytochrome c and Porphyrin.
Her research investigates the link between Photochemistry and topics such as Excited state that cross with problems in Ground state.
Her Analytical chemistry study also includes
- Chemical physics and related Chromophore,
- Membrane and related Endoplasmic reticulum.
In her research on the topic of Phosphorescence, Diffusion is strongly related with Quenching.
Her Cytochrome c study combines topics from a wide range of disciplines, such as Crystallography, Cytochrome and Cytochrome c oxidase.
Her Porphyrin research is multidisciplinary, incorporating elements of Myoglobin and Heme.
She most often published in these fields:
- Photochemistry (32.74%)
- Analytical chemistry (22.57%)
- Phosphorescence (21.24%)
What were the highlights of her more recent work (between 2001-2017)?
- Infrared spectroscopy (11.06%)
- Molecule (13.27%)
- Photochemistry (32.74%)
In recent papers she was focusing on the following fields of study:
Jane M. Vanderkooi mostly deals with Infrared spectroscopy, Molecule, Photochemistry, Hydrogen bond and Analytical chemistry.
Jane M. Vanderkooi has included themes like Guanidinium chloride, Atmospheric temperature range and Solvent in her Infrared spectroscopy study.
Her Molecule research includes elements of Myoglobin, Crystallography, Chromophore, Enantiomer and Density functional theory.
Her work deals with themes such as Excited state, Triplet state, Fluorescence spectroscopy, Tryptophan and Phosphorescence, which intersect with Photochemistry.
Her Analytical chemistry study combines topics in areas such as Chemical physics, Guanidinium Cation, Cytochrome c, Trehalose and Molecular physics.
In her study, Benzohydroxamic acid is strongly linked to Quenching, which falls under the umbrella field of Oxygen.
Between 2001 and 2017, her most popular works were:
- Hydrogen bonding and the cryoprotective properties of glycerol/water mixtures. (184 citations)
- X-ray Structure of Snow Flea Antifreeze Protein Determined by Racemic Crystallization of Synthetic Protein Enantiomers (167 citations)
- The hydration of amides in helices; a comprehensive picture from molecular dynamics, IR, and NMR (109 citations)
In her most recent research, the most cited papers focused on:
- Enzyme
- Organic chemistry
- Amino acid
The scientist’s investigation covers issues in Molecule, Infrared spectroscopy, Hydrogen bond, Analytical chemistry and Crystallography.
Jane M. Vanderkooi has included themes like Nitrile, Atmospheric temperature range, Photochemistry, Glycerol and Density functional theory in her Infrared spectroscopy study.
Her Photochemistry research incorporates themes from Phosphorescence, Local field, Raman spectroscopy and Physical chemistry.
Her Hydrogen bond study incorporates themes from Inorganic chemistry and Chemical polarity.
Her work on Molecular vibration as part of general Analytical chemistry research is frequently linked to Freezing behavior, thereby connecting diverse disciplines of science.
Her Crystallography study integrates concerns from other disciplines, such as Protein structure and Cooperativity.
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