Tina A. Dahlseid
YOU?
Author Swipe
View article: Enhancing LC×LC separations through multi-task Bayesian optimization
Enhancing LC×LC separations through multi-task Bayesian optimization Open
Method development in comprehensive two-dimensional liquid chromatography (LC×LC) is a challenging process. The interdependencies between the two dimensions and the possibility of incorporating complex gradient profiles, such as multi-segm…
View article: Fingerprinting of hydroxy propyl methyl cellulose by comprehensive two-dimensional liquid chromatography-mass spectrometry of monomers resulting from acid hydrolysis
Fingerprinting of hydroxy propyl methyl cellulose by comprehensive two-dimensional liquid chromatography-mass spectrometry of monomers resulting from acid hydrolysis Open
View article: Improved hydrophobic subtraction model of reversed-phase liquid chromatography selectivity based on a large dataset with a focus on isomer selectivity
Improved hydrophobic subtraction model of reversed-phase liquid chromatography selectivity based on a large dataset with a focus on isomer selectivity Open
Reversed-phase (RP) liquid chromatography is an important tool for the characterization of materials and products in the pharmaceutical industry. Method development is still challenging in this application space, particularly when dealing …
View article: Enhancing LC×LC separations through Multi-Task Bayesian Optimization
Enhancing LC×LC separations through Multi-Task Bayesian Optimization Open
Method development in comprehensive two-dimensional liquid chromatography (LC×LC) is a challenging process. The interdependencies between the two dimensions and the possibility of incorporating complex gradient profiles, such as multi-segm…
View article: Computer-driven optimization of complex gradients in comprehensive two-dimensional liquid chromatography
Computer-driven optimization of complex gradients in comprehensive two-dimensional liquid chromatography Open
View article: Characterization of a High Throughput Approach for Large Scale Retention Measurement in Liquid Chromatography
Characterization of a High Throughput Approach for Large Scale Retention Measurement in Liquid Chromatography Open
Many contemporary challenges in liquid chromatography - such as the need for “smarter” method development tools, and deeper understanding of chromatographic phenomena - could be addressed more efficiently and effectively with larger volume…
View article: Characterization of a High Throughput Approach for Large Scale Retention Measurement in Liquid Chromatography
Characterization of a High Throughput Approach for Large Scale Retention Measurement in Liquid Chromatography Open
Many contemporary challenges in liquid chromatography - such as the need for “smarter” method development tools, and deeper understanding of chromatographic phenomena - could be addressed more efficiently and effectively with larger volume…
View article: Characterization of a High Throughput Approach for Large Scale Retention Measurement in Liquid Chromatography
Characterization of a High Throughput Approach for Large Scale Retention Measurement in Liquid Chromatography Open
Many contemporary challenges in liquid chromatography - such as the need for “smarter” method development tools, and deeper understanding of chromatographic phenomena - could be addressed more efficiently and effectively with larger volume…
View article: An approach to high throughput measurement of accurate retention data in liquid chromatography
An approach to high throughput measurement of accurate retention data in liquid chromatography Open
View article: An Approach to High Throughput Measurement of Accurate Retention Data in Liquid Chromatography
An Approach to High Throughput Measurement of Accurate Retention Data in Liquid Chromatography Open
Efforts to model and simulate various aspects of liquid chromatography (LC) separations (e.g., retention, selectivity, peak capacity, injection breakthrough) depend on experimental retention measurements to use as the basis for the models …
View article: An Approach to High Throughput Measurement of Accurate Retention Data in Liquid Chromatography
An Approach to High Throughput Measurement of Accurate Retention Data in Liquid Chromatography Open
Efforts to model and simulate various aspects of liquid chromatography (LC) separations (e.g., retention, selectivity, peak capacity, injection breakthrough) depend on experimental retention measurements to use as the basis for the models …
View article: Peak-tracking algorithm for use in comprehensive two-dimensional liquid chromatography – Application to monoclonal-antibody peptides
Peak-tracking algorithm for use in comprehensive two-dimensional liquid chromatography – Application to monoclonal-antibody peptides Open
A peak-tracking algorithm was developed for use in comprehensive two-dimensional liquid chromatography coupled to mass spectrometry. Chromatographic peaks were tracked across two different chromatograms, utilizing the available spectral in…