What is she best known for?
The fields of study she is best known for:
- Enzyme
- Biochemistry
- Internal medicine
Lisa M. Miller mainly focuses on Biochemistry, Zinc, Analytical chemistry, Genetically modified mouse and Neurodegeneration.
Her work on Cell wall as part of general Biochemistry study is frequently connected to Crime detection, therefore bridging the gap between diverse disciplines of science and establishing a new relationship between them.
Her Zinc research incorporates elements of Amyloid beta and Copper.
Her research investigates the connection between Copper and topics such as In situ that intersect with issues in Metal.
In Analytical chemistry, Lisa M. Miller works on issues like Infrared, which are connected to Synchrotron radiation and Spectroscopy.
Pathology is closely attributed to Biophysics in her work.
Her most cited work include:
- Synchrotron-based infrared and X-ray imaging shows focalized accumulation of Cu and Zn co-localized with beta-amyloid deposits in Alzheimer's disease. (407 citations)
- Chemical imaging of biological tissue with synchrotron infrared light (290 citations)
- Low-level mechanical vibrations can influence bone resorption and bone formation in the growing skeleton. (205 citations)
What are the main themes of her work throughout her whole career to date?
Her scientific interests lie mostly in Biophysics, Synchrotron, Infrared, Pathology and Biochemistry.
Lisa M. Miller combines subjects such as In situ, Reactive oxygen species, Calcium and Fluorescence microscope with her study of Biophysics.
Her Synchrotron research incorporates themes from Microscope, Microscopy, Synchrotron radiation, Analytical chemistry and Nuclear magnetic resonance.
Infrared is a subfield of Optics that Lisa M. Miller investigates.
Many of her research projects under Pathology are closely connected to Genetically modified mouse with Genetically modified mouse, tying the diverse disciplines of science together.
As a member of one scientific family, Lisa M. Miller mostly works in the field of Amyloid beta, focusing on Zinc and, on occasion, Neurodegeneration.
She most often published in these fields:
- Biophysics (25.00%)
- Synchrotron (17.76%)
- Infrared (15.79%)
What were the highlights of her more recent work (between 2014-2020)?
- Biophysics (25.00%)
- Amyloid (7.89%)
- Cerebral amyloid angiopathy (5.26%)
In recent papers she was focusing on the following fields of study:
Her primary areas of investigation include Biophysics, Amyloid, Cerebral amyloid angiopathy, Synchrotron and Neurodegeneration.
Her Biophysics research is multidisciplinary, incorporating perspectives in Membrane, Resolution, Organelle and Fluorescence microscope.
Her Amyloid study is associated with Pathology.
The study incorporates disciplines such as Copper Chelation and Copper in addition to Cerebral amyloid angiopathy.
Her work in Synchrotron covers topics such as X-ray fluorescence which are related to areas like Analytical chemistry.
Her Neurodegeneration research integrates issues from Alzheimer's disease, Fibril and Beta sheet, Peptide.
Between 2014 and 2020, her most popular works were:
- Rapid alignment of nanotomography data using joint iterative reconstruction and reprojection (39 citations)
- Enhancing digestibility and ethanol yield of Populus wood via expression of an engineered monolignol 4-O-methyltransferase (32 citations)
- Characterization of Protein Structural Changes in Living Cells Using Time-Lapsed FTIR Imaging (27 citations)
In her most recent research, the most cited papers focused on:
- Enzyme
- Biochemistry
- Internal medicine
Her scientific interests lie mostly in Analytical chemistry, Synchrotron, X-ray fluorescence, Ptychography and Microscopy.
Her work deals with themes such as Protein structure, Fourier transform infrared spectroscopy, Biological system and Infrared, which intersect with Analytical chemistry.
Her research integrates issues of Nanoprobe, Fluorescence, Sample preparation and Nanostructure in her study of Synchrotron.
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