Preparation and evaluation of zirconia-coated silica monolith for capillary electrochromatography

“…Phosphate ions as Lewis bases are able to bind strongly to the Lewis acid sites on zirconia surface to provide negative surface charges 34 and hence cathodic EOF, regardless of the mobile phase pH. 43 Expression for µ eo in CE given by Smoluchowski (µ eo = ε･ε o ･ζ/η, where ε is the dielectric constant of the medium, εo is the permittivity of the vacuum, ζ is the zeta potential and η is the viscosity of the medium) indicates that µeo is only dependent on the ζ potential for a given medium. The ζ potential is proportional to the surface charge density.…”

“…Zirconia-based stationary phases have been increasingly used in CEC separations recently. [35][36][37][38][39][40][41][42][43] To our knowledge enantioseparation of non-acidic, neutral compounds on QNZ by RP-CEC has not been reported while QNZ was used for enantioseparation of acidic chiral compounds by RPLC. [44][45][46] Influences of pH, acetonitrile content, composition of the buffer and applied voltage on enantioseparation were examined.…”

Enantioseparation of Neutral Compounds on a Quinine Carbamate-Immobilized Zirconia in Reversed-Phase Capillary Electrochromatography

“…Phosphate ions as Lewis bases are able to bind strongly to the Lewis acid sites on zirconia surface to provide negative surface charges 34 and hence cathodic EOF, regardless of the mobile phase pH. 43 Expression for µ eo in CE given by Smoluchowski (µ eo = ε･ε o ･ζ/η, where ε is the dielectric constant of the medium, εo is the permittivity of the vacuum, ζ is the zeta potential and η is the viscosity of the medium) indicates that µeo is only dependent on the ζ potential for a given medium. The ζ potential is proportional to the surface charge density.…”

“…Zirconia-based stationary phases have been increasingly used in CEC separations recently. [35][36][37][38][39][40][41][42][43] To our knowledge enantioseparation of non-acidic, neutral compounds on QNZ by RP-CEC has not been reported while QNZ was used for enantioseparation of acidic chiral compounds by RPLC. [44][45][46] Influences of pH, acetonitrile content, composition of the buffer and applied voltage on enantioseparation were examined.…”

Enantioseparation of Neutral Compounds on a Quinine Carbamate-Immobilized Zirconia in Reversed-Phase Capillary Electrochromatography

“…Like organic polymer monoliths, silica-based monoliths offer numerous advantages such as high mass transfer rate, excellent permeability, and low back pressure drop (Cabrera, 2004;Kato et al, 2005). A common property shared by all silica-based supports is that they can only operate in a certain range of pH (2-8) for a given time and degrade rapidly in certain mobile phases, such as in phosphate buffers (Shi et al, 2004). However, silica-based monolith is suitable for the separation of biomolecules of varied molecular sizes as it possesses a defined macro/meso-pores network apart from the ability to comprehend extreme temperatures of over 750 ºC (Bacskay et al, 2014).…”

Green biodiesel production: a review on feedstock, catalyst, monolithic reactor, and supercritical fluid technology

“…Por ex., a atividade silanofílica, devido à existência de grupos silanóis residuais em fases monolíticas baseadas em sílica, é muito similar e muitas vezes até maior que em colunas recheadas 59,61 . Visando contornar tais inconvenientes, novas alternativas vêm sendo propostas no campo de preparo das fases monolíticas, tais como preparação de materiais híbridos orgânicos-inorgânicos 62 , preparação de monolitos de sílica recobertos com óxidos quimicamente mais estáveis 63 , etc. Como cada fase monolítica é única, devido à preparação direta dentro da coluna cromatográfica, a reprodutibilidade de colunas é um fator de extrema importância e que vêm sendo sistematicamente avaliada.…”

“…Em todas as aplicações, as eficiências em ECC foram superiores às obtidas em µCLAE. Diversas moléculas já foram analisadas no modo de fase reversa da eletrocromatografia capilar, a citar: hidrocarbonetos aromáticos policí-clicos 18,35,36,55,56 , compostos básicos 33,35,36,63 e ácidos 33,36,55,62 , fármacos 28 , pesticidas 41 , entre outros. Estes compostos são freqüentemente separados com rapidez, devido à presença de moléculas na FM que fornecem altas velocidades de fluxo eletroosmótico e às altas eficiências cromatográficas, provenientes do perfil planar do FEO.…”

Fases estacionárias monolíticas para separações cromatográficas