Brian Davison
Oak Ridge Natl Lab
Appearances
DateApril 16, 2021Division/Committee: [CELL] Division of Cellulose and Renewable MaterialsOrganizers
Oak Ridge Natl LabInst Paper SCI TechlgyOrganizer, Presider
Research Assistant Professor, The University of Tennessee KnoxvillePresiders
LarChem LLCBoku University Vienna
DateApril 16, 2021Plant cell wall is a complex, multi-polymeric system that consists of primarily carbohydrates and lignin. Cellulose strands come together to form microfibrils while the amorphous polymers, hemicellulose and lignin form a network structure and fill the interstitial space…Speakers
Oak Ridge National LaboratoryInst Paper SCI TechlgyOak Ridge Natl LabPresenter
- DateApril 16, 2021Division/Committee: [CELL] Division of Cellulose and Renewable Materials
Organizers
Oak Ridge Natl LabInst Paper SCI TechlgyResearch Assistant Professor, The University of Tennessee KnoxvilleOrganizer, Presiders
LarChem LLCBoku University Vienna - DateMarch 21, 2022The plant cell wall is an intricate hierarchical structure that is primarily composed of the biopolymers, cellulose, lignin and hemicellulose…
Speakers
Oak Ridge National LaboratoryOak Ridge Natl LabPresenter
DateAugust 22, 2022Plant cell wall structure consisting of several carbohydrate polymers encased in hydrophobic lignin polymer to protect against degradation, is an intricate and complex structure. This complex structure of the plants was designed to naturally restrict access to the carbohydrate polymers…Speakers
Inst Paper SCI TechlgyOak Ridge National LaboratoryOak Ridge Natl LabPresenter
- Amphiphilic molecules, such as alcohols or other bioproducts, are known to partition into cellular membranes, ultimately leading to membrane thinning, destabilization, loss of membrane potential, and finally, cell death…
Speakers
Oak Ridge National LaboratoryOak Ridge Natl LabPresenter
- Amphiphilic molecules, such as alcohols or other bioproducts, are known to partition into cellular membranes, ultimately leading to membrane thinning, destabilization, loss of membrane potential, and finally, cell death…
Speakers
Oak Ridge National LaboratoryOak Ridge Natl Lab - : [COLL] Division of Colloid & Surface Chemistry
Speakers
University of California DavisUniversity of ConnecticutOak Ridge National LaboratoryAtul N. Parikh, Ph.D.Professor, University of California, DavisPostdoctoral Fellow, University of VirginiaVirginia Polytechnic Institute and State UniversityUniversity of TennesseeOak Ridge Natl Lab - : [COLL] Division of Colloid & Surface Chemistry
Speakers
University of California DavisUniversity of ConnecticutOak Ridge National LaboratoryAtul N. Parikh, Ph.D.Professor, University of California, DavisUniversity of TennesseeOak Ridge Natl LabPostdoctoral Fellow, University of Virginia - Amphiphilic molecules, such as alcohols or other bioproducts, are known to partition into cellular membranes, ultimately leading to membrane thinning, destabilization, loss of membrane potential, and finally, cell death…
Speakers
Oak Ridge National LaboratoryOak Ridge Natl Lab - : [COLL] Division of Colloid & Surface Chemistry
Speakers
University of California DavisUniversity of ConnecticutOak Ridge National LaboratoryAtul N. Parikh, Ph.D.Professor, University of California, DavisPostdoctoral Fellow, University of VirginiaVirginia Polytechnic Institute and State UniversityUniversity of TennesseeOak Ridge Natl Lab - : [COLL] Division of Colloid & Surface Chemistry
Speakers
University of California DavisUniversity of ConnecticutOak Ridge National LaboratoryAtul N. Parikh, Ph.D.Professor, University of California, DavisUniversity of TennesseeOak Ridge Natl LabPostdoctoral Fellow, University of Virginia - Amphiphilic molecules, such as alcohols or other bioproducts, are known to partition into cellular membranes, ultimately leading to membrane thinning, destabilization, loss of membrane potential, and finally, cell death…
Speakers
Oak Ridge National LaboratoryOak Ridge Natl Lab - : [COLL] Division of Colloid & Surface Chemistry
Speakers
University of California DavisUniversity of ConnecticutOak Ridge National LaboratoryAtul N. Parikh, Ph.D.Professor, University of California, DavisPostdoctoral Fellow, University of VirginiaVirginia Polytechnic Institute and State UniversityUniversity of TennesseeOak Ridge Natl Lab - : [COLL] Division of Colloid & Surface Chemistry
Speakers
University of California DavisUniversity of ConnecticutOak Ridge National LaboratoryAtul N. Parikh, Ph.D.Professor, University of California, DavisUniversity of TennesseeOak Ridge Natl LabPostdoctoral Fellow, University of Virginia - DateMarch 28, 2023Amphiphilic molecules, such as alcohols or other bioproducts, are known to partition into cellular membranes, ultimately leading to membrane thinning, destabilization, loss of membrane potential, and finally, cell death…
Speakers
Oak Ridge National LaboratoryOak Ridge Natl LabPresenter
- DateMarch 26, 2023ABSTRACT Amphiphilic co-solvents can have a significant impact on the structure, organization, and physical properties of lipid bilayers…
Presenter
Speakers
Oak Ridge National LaboratoryOak Ridge Natl Lab - DateMarch 19, 2024Biofuels, as sustainable energy alternatives, have risen in prominence, making it imperative to optimize their production efficiency…
Speakers
Oak Ridge National LaboratoryOak Ridge Natl LabPresenter
