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Ining A Jou

Showing results (1-10 of 9) with videos related to

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Nanotechnology|April 5, 2016
Protein permeation through an electrically tunable membraneIning A Jou, Dmitriy V Melnikov, Maria E Gracheva
Nanotechnology|March 14, 2014
Charged particle separation by an electrically tunable nanoporous membraneIning A Jou, Dmitriy V Melnikov, Anna Nadtochiy, et al.
The Journal of Chemical Physics|March 17, 2016
Nanopore gating with an anchored polymer in a switching electrolyte biasCraig C Wells, Ining A Jou, Dmitriy V Melnikov, et al.
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|February 2, 2013
DNA translocation through a nanopore in a single-layered doped semiconductor membraneIning A Jou, Dmitriy V Melnikov, Christopher R McKinney, et al.
Carbohydrate Research|January 30, 2023
Potential of mean force conformational energy maps for disaccharide linkages of the Burkholderia multivorans exopolysaccharide C1576 in aqueous solutionIning A Jou, Andrew S Yoo, Elyssa V Dionne, et al.
International Journal of Biological Macromolecules|December 2, 2019
Ramachandran conformational energy maps for disaccharide linkages found in Burkholderia multivorans biofilm polysaccharidesIning A Jou, Marco Caterino, Udo Schnupf, et al.
International Journal of Biological Macromolecules|October 9, 2023
Microscopy and modelling investigations on the morphology of the biofilm exopolysaccharide produced by Burkholderia multivorans strain C1576Michele Cacioppo, Rita De Zorzi, Zois Syrgiannis, et al.
International Journal of Molecular Sciences|March 6, 2020
<i>Burkholderia</i> <i>cenocepacia</i> H111 Produces a Water-Insoluble Exopolysaccharide in Biofilm: Structural Determination and Molecular ModellingBarbara Bellich, Ining A Jou, Marco Caterino, et al.
Carbohydrate Research|January 13, 2021
The biofilm of Burkholderia cenocepacia H111 contains an exopolysaccharide composed of l-rhamnose and l-mannose: Structural characterization and molecular modellingBarbara Bellich, Ining A Jou, Claudia Buriola, et al.
Pageof 1

Showing results (1-10 of 9) with videos related to

Sort By:
Pageof 1
Nanotechnology|April 5, 2016
Protein permeation through an electrically tunable membraneIning A Jou, Dmitriy V Melnikov, Maria E Gracheva
Nanotechnology|March 14, 2014
Charged particle separation by an electrically tunable nanoporous membraneIning A Jou, Dmitriy V Melnikov, Anna Nadtochiy, et al.
The Journal of Chemical Physics|March 17, 2016
Nanopore gating with an anchored polymer in a switching electrolyte biasCraig C Wells, Ining A Jou, Dmitriy V Melnikov, et al.
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|February 2, 2013
DNA translocation through a nanopore in a single-layered doped semiconductor membraneIning A Jou, Dmitriy V Melnikov, Christopher R McKinney, et al.
Carbohydrate Research|January 30, 2023
Potential of mean force conformational energy maps for disaccharide linkages of the Burkholderia multivorans exopolysaccharide C1576 in aqueous solutionIning A Jou, Andrew S Yoo, Elyssa V Dionne, et al.
International Journal of Biological Macromolecules|December 2, 2019
Ramachandran conformational energy maps for disaccharide linkages found in Burkholderia multivorans biofilm polysaccharidesIning A Jou, Marco Caterino, Udo Schnupf, et al.
International Journal of Biological Macromolecules|October 9, 2023
Microscopy and modelling investigations on the morphology of the biofilm exopolysaccharide produced by Burkholderia multivorans strain C1576Michele Cacioppo, Rita De Zorzi, Zois Syrgiannis, et al.
International Journal of Molecular Sciences|March 6, 2020
<i>Burkholderia</i> <i>cenocepacia</i> H111 Produces a Water-Insoluble Exopolysaccharide in Biofilm: Structural Determination and Molecular ModellingBarbara Bellich, Ining A Jou, Marco Caterino, et al.
Carbohydrate Research|January 13, 2021
The biofilm of Burkholderia cenocepacia H111 contains an exopolysaccharide composed of l-rhamnose and l-mannose: Structural characterization and molecular modellingBarbara Bellich, Ining A Jou, Claudia Buriola, et al.
Pageof 1