Uniform Pores in Cross-Linked Polymers by Dispersed Fumed Silica Templating

Duarte, Mariana; Billing, Johan; Liu, Yan; Leeman, Mats; Karlsson, Ola; Yilmaz, Ecevit

doi:10.1021/acs.macromol.5b00263

Cited by 11 publications

(12 citation statements)

References 35 publications

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“…Given the starting average particle size of the fumed silica of 120 Å and considering the surface modifications, this result seems consistent with previous reports. 24 By contrast, MIP3 and NIP3 exhibit a dual pore size distribution which we ascribe to the use of THF, resulting in a fraction of smaller pores (micropores). This result shows that even a small amount of liquid solvent is detrimental for the homogeneity of the pores.…”

Section: Protein Separation and Digestionmentioning

confidence: 84%

“…Recently, a new route for controlling the porosity in highly crosslinked divinylbenzene (DVB) polymers 24 and MIPs imprinted with ephedrine has been reported. 25 In this method, the synthesis of MIPs is performed in the absence of a solvent using dispersed fumed silica nanoparticles in a templating approach to create the internal porosity of the polymer.…”

Section: Introductionmentioning

confidence: 99%

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Molecularly imprinted polymers synthesized via template immobilization on fumed silica nanoparticles for the enrichment of phosphopeptides

Duarte

Subedi

Yilmaz

et al. 2017

J of Molecular Recognition

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Phosphorylation is a protein post-translational modification (PTM) that plays an important role in cell signaling, cell differentiation, and metabolism. The hyper phosphorylated forms of certain proteins have been appointed as biomarkers for neurodegenerative diseases, and phosphorylationrelated mutations are important for detecting cancer pathways. Due to the low abundance of phosphorylated proteins in biological fluids, sample enrichment is beneficial prior to detection.Thus, a need to find new strategies for enriching phosphopeptides has emerged. Molecularly imprinted polymers (MIPs) are synthetic polymeric materials manufactured to exhibit affinity for a target molecule. In this study, MIPs have been synthesized using a new approach based on the use of fumed silica as sacrificial support acting as solid porogen with the template (phosphotyrosine) immobilized on its surface. Phosphotyrosine MIPs were tested against a mixture of peptides and phosphopeptides by performing micro-solid phase extraction using MIPs (μMISPE) packed in a pipette tip. First, the capability of the materials to preferentially enrich phosphopeptides was evaluated. In a next step, the enrichment of phosphopeptides from a whole-cell lysate of human embryonic kidney (HEK) 293T cells was performed. The eluates were analyzed using MALDI-MS in the first case and with nano-HPLC-ESI-MS/MS in the second case.The results showed that the MIPs provided affinity for phosphopeptides, binding preferentially to multi-site phosphorylated peptides. The MIPs could enrich phosphopeptides in over 10-fold compared with the number of phosphopeptides found in a cell lysate without enrichment. MS-based studies of protein phosphorylation are dependent on sample preparation steps that enrich the phosphorylated peptides prior to analysis.

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Section: Protein Separation and Digestionmentioning

confidence: 84%

Section: Introductionmentioning

confidence: 99%

Molecularly imprinted polymers synthesized via template immobilization on fumed silica nanoparticles for the enrichment of phosphopeptides

Duarte

Subedi

Yilmaz

et al. 2017

J of Molecular Recognition

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“…The compatibility of a very hydrophobic cross‐linker, such as the divinylbenzene used in this synthesis, with hydrophobic surface modified fumed silica allows for the incorporation of a sufficient volume of silica particles in the pre‐polymerization mixture which results in reasonably high pore volumes (>0.5 mL/g). However, we have previously studied this parameter using a composition of divinylbenzene without any other co‐monomers and were able to obtain a larger pore volume, which is due to a higher percolation threshold . Hence, the presence of more hydrophilic monomers may require an assessment of the possible surface modifications on the silica.…”

Section: Resultsmentioning

confidence: 99%

“…In a previous study we have concluded that fumed silica can function as a solid porogen in cross‐linked polymers synthesis . The non‐imprinted poly(divinylbenzene) materials were mesoporous materials with high surface areas and the silica particle size was replicated in the polymer average pore size.…”

Section: Introductionmentioning

confidence: 98%

Solvent‐free synthesis of chiral molecularly imprinted polymers: Porosity control using a nano‐sized solid porogen

Duarte

Billing

Yilmaz

2016

J of Applied Polymer Sci

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Molecularly imprinted polymers (MIPs) have been synthesized in the absence of a solvent using fumed silica nanoparticles to create a porous network. The method employed led to a chiral imprinting effect and allowed for an excellent control over the internal morphology of imprinted and non-imprinted polymer (NIP) materials. The polymers possess high surface areas (>300 m 2 ) and identical pore size (112 Å ). The MIP exhibited an imprinting factor (IF) of 9 and a selectivity value (a) of 1.83 for (2)-ephedrine.

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“…[162] After polymerization and removal of the fumed silica, closely controlled and interconnected pores were formed. The fumed silica, starting from monodisperse primary silica particles allowed precise pore size control in a random setting of aggregates avoiding the tedious step of aligning a colloid.…”

Section: Direct Templatesmentioning

confidence: 99%

Porous Polymer Membranes by Hard Templating – A Review

2017

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Membranes are designed to bridge a precise separation process at the nanoscale with industrial applications running at cubic meters per hour. This review outlines materials applied in membrane production with a particular focus on polymers. Membrane performance and created value are directly linked to controlled pore formation. Their economic relevance has created a number of large companies and associated academic research at top institutions. The authors review, therefore, starts from well-established techniques applied in products and then moves on to evolving concepts from academia. Pore formation through hard templating is a versatile field for separation processes. A more detailed view is given on the two known concepts for nanopore formation, namely colloidal templates and random hard salt templating. A comparison between these two concepts underlines their relevance to combine a process specific separation with large scale manufacturing requirements (i.e., upscale possibility, flexible process control and environmental impact).

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Uniform Pores in Cross-Linked Polymers by Dispersed Fumed Silica Templating

Cited by 11 publications

References 35 publications

Molecularly imprinted polymers synthesized via template immobilization on fumed silica nanoparticles for the enrichment of phosphopeptides

Molecularly imprinted polymers synthesized via template immobilization on fumed silica nanoparticles for the enrichment of phosphopeptides

Solvent‐free synthesis of chiral molecularly imprinted polymers: Porosity control using a nano‐sized solid porogen

Porous Polymer Membranes by Hard Templating – A Review

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