Molecular separation with organic solvent nanofiltration: a critical review
P Marchetti, MF Jimenez Solomon, G Szekely… - Chemical …, 2014 - ACS Publications
Separation processes play a remarkable role in the chemical and pharmaceutical industries,
where they account for 40− 70% of both capital and operating costs. 1 Organic syntheses in …
where they account for 40− 70% of both capital and operating costs. 1 Organic syntheses in …
Solvent resistant nanofiltration: separating on a molecular level
P Vandezande, LEM Gevers… - Chemical Society …, 2008 - pubs.rsc.org
Over the past decade, solvent resistant nanofiltration (SRNF) has gained a lot of attention, as
it is a promising energy-and waste-efficient unit process to separate mixtures down to a …
it is a promising energy-and waste-efficient unit process to separate mixtures down to a …
Recent progress and future prospects in development of advanced materials for nanofiltration
Nanofiltration (NF) has emerged as a potentially superior and cost-effective way to remove
sediments, charged particles, chemical effluents, bacteria and other pathogens in addition to …
sediments, charged particles, chemical effluents, bacteria and other pathogens in addition to …
Organic solvent nanofiltration: A platform for removal of genotoxins from active pharmaceutical ingredients
G Székely, J Bandarra, W Heggie, B Sellergren… - Journal of Membrane …, 2011 - Elsevier
This paper discusses the use of organic solvent nanofiltration (OSN) as a general platform
for the removal of genotoxic impurities (GTI) used as reactants or formed during the …
for the removal of genotoxic impurities (GTI) used as reactants or formed during the …
The selectivity challenge in organic solvent nanofiltration: membrane and process solutions
P Marchetti, L Peeva, A Livingston - Annual review of chemical …, 2017 - annualreviews.org
Recent development of organic solvent nanofiltration (OSN) materials has been
overwhelmingly directed toward tight membranes with ultrahigh permeance. However …
overwhelmingly directed toward tight membranes with ultrahigh permeance. However …
Polymer-based membranes for solvent-resistant nanofiltration: A review
Separation of organic mixture is an inevitable process in most modern industrial processes.
In the quest for a more sustainable and efficient separation, solvent-resistant nanofiltration …
In the quest for a more sustainable and efficient separation, solvent-resistant nanofiltration …
Designing organic solvent separation membranes: polymers, porous structures, 2D materials, and their combinations
As the interest for membrane-based organic solvent separation increases, membrane
materials exhibiting high permeance, high selectivity, and long-term stability against …
materials exhibiting high permeance, high selectivity, and long-term stability against …
Use of TADDOLs and their derivatives in asymmetric synthesis
H Pellissier - Tetrahedron, 2008 - Elsevier
The enantioselective production of compounds is a central theme in current research, mainly
in connection with the fact that most natural products are chiral and their physiological or …
in connection with the fact that most natural products are chiral and their physiological or …
Enantioselective nanofiltration using predictive process modeling: Bridging the gap between materials development and process requirements
Organic solvent nanofiltration (OSN) is a low-energy alternative for continuous separations
in the chemical industry. As the pharmaceutical sector increasingly turns toward continuous …
in the chemical industry. As the pharmaceutical sector increasingly turns toward continuous …
Continuous solute fractionation with membrane cascades–a high productivity alternative to diafiltration
WE Siew, AG Livingston, C Ates… - Separation and Purification …, 2013 - Elsevier
Two new solute fractionating membrane cascade configurations have been proposed, with
the aim of introducing a flexible solute fractionation system that can be modified rapidly …
the aim of introducing a flexible solute fractionation system that can be modified rapidly …