SOLAD™ Silica Gel for LC
Glantreo synthesise silica. We identified a gap in the market, monodispersed silica without classification.
1. Highly monodispersed without the need to size classify leading to high chromatographic efficiency
2. Monodensity leading to higher packing stability as there are no macro pores within the particles.
The foundation of any good chromatography column is the stationary phase. We are experts in stationary phases.
SOLAD™ is a proprietary process for manufacture of non porous silica particle for use in HPLC and UHPLC.
Whilst having a low surface area due to the lack of porosity, these particles nonetheless have a high efficiency due to their ultra high monodisperse nature and their favourable surface chemistry. Combining this superior stationary phase with Glantreo’s capability from a binding and packing perspective produces a world-class column.
Product Data and References
Typical Physical Properties
|Particle Size||1.0um, 2.0um, 3.0um.|
|Chemistry||Raw Silica, C4, C8.|
Below you will find the different Product variations in our SOLAD™ Silica Gel Range. In order to make them easy to find we have added a search function. To narrow down your selection you can search within a table. If you have any questions then please do not hesitate to ‘Ask and Expert’.
|Product Code||Particle Size (µm)||Pack Size (g)||Chemistry|
Citations using Glantreo’s materials
If you have published and cited Glantreo’s materials then click here to let us know.
Spudeita et al, 2014, Superficially porous particles vs. fully porous particles for bonded HPLC chiral stationary phases
Daniel A. Spudeita,b, Maressa D. Dolzana,b, Zachary S. Breitbacha, William E. Barberc, Gustavo A. Mickeb, Daniel W. Armstrong , Superficially porous particles vs. fully porous particles for bonded high performance liquid chromatographic chiral stationary phases: Isopropyl cyclofructan 6, Journal of Chromatography A, 1363 (2014) 89–95
Omamoghoa et al, 2011, Structural variation of solid core and thickness of porous shell of 1.7 m core–shell silica particles
Jesse O. Omamoghoa, John P. Hanrahanb, Joe Tobinb, Jeremy D. Glennon, Structural variation of solid core and thickness of porous shell of 1.7 m core–shell silica particles on chromatographic performance: Narrow bore columns, Journal of Chromatography A, 1218 (2011) 1942–1953
Nováková et al, 2014, Hydrophilic interaction chromatography of polar and ionizable compounds by UHPLC
Lucie Nováková *, Lucie Havlíková, Hana Vlcˇková, Hydrophilic interaction chromatography of polar and ionizable compounds by UHPLC, Trends in Analytical Chemistry 63 (2014) 55–64
Victor K. Langsi, Benjamin A. Ashu-Arrah, Jeremy D. Glennon, Sub-2-m seeded growth mesoporous thin shell particles for high-performance liquid chromatography: Synthesis, functionalisation and characterisation, Journal of Chromatography A, 1402 (2015) 17–26
Víctor González-Ruiz, Ana I. Olives, M. Antonia Martín, Core-shell particles lead the way to renewing high-performance liquid chromatography, Trends in Analytical Chemistry (2014),
Szabolcs Feketea,∗, Erzsébet Oláhb, Jeno ̋Feketea, Fast liquid chromatography: The domination of core–shell and very fine particles, Journal of Chromatography A, 1228 (2012) 57–71
Dolzana et al, 2014, Comparison of superficially porous and fully porous silica supports used for a cyclofructan 6 hydrophilic interaction liquid chromatographic stationary phase
Maressa D. Dolzana,b, Daniel A. Spudeita,b, Zachary S. Breitbacha, William E. Barberc, Gustavo A. Mickeb, Daniel W. Armstronga,d, Comparison of superficially porous and fully porous silica supports used for a cyclofructan 6 hydrophilic interaction liquid chromatographic stationary phase, Journal of Chromatography A, 1365 (2014) 124-30
Ashu-Arraha et al, 2012, synthesis of bonded mercaptopropyl silica alkoxysilanes in supercritical carbon dioxide as a reaction solvent
Benjamin A. Ashu-Arraha, Jeremy D. Glennona,∗, Klaus Albertb, Synthesis and characterisation of bonded mercaptopropyl silica intermediate stationary phases prepared using multifunctional alkoxysilanes in supercritical carbon dioxide as a reaction solvent, Journal of Chromatography A, 1222 (2012) 38–45