3D-printed complex-shaped chiral organosilica porous monoliths that display enantioselectivity

Farrell, Efrat Shukrun; Siam, Reema; Moshkovitz, May Yam; Avnir, David; Abu‐Reziq, Raed; Magdassi, Shlomo

doi:10.1016/j.addma.2022.103265

Cited by 2 publications

(2 citation statements)

References 29 publications

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“…Considerable effort has focused on chiral adsorbent materials with well-enantioselective recognition and separation ability in the last few years. A variety of solid chiral materials, such as chiral metal-organic frameworks (MOFs), 18 chiral covalent organic frameworks (COFs), 19 chiral molecularly imprinted polymers, 20 chiral organic-inorganic hybrid materials, 21 chiral polymers, 22,23 chiral porous and mesoporous silicas and carbons, [24][25][26][27][28][29][30][31] and various chiral nanoparticles and quantum dots (QDs), [32][33][34][35][36] are widely established and employed in asymmetric synthesis, recognition, and separation of chiral molecules. However, these materials in practical applications are often associated with certain disadvantages, such as complicated preparation, high cost, low chemical stability, toxicity, and poor universality.…”

Section: Introductionmentioning

confidence: 99%

Enantioselective adsorption of ibuprofen enantiomers using chiral‐active carbon nanoparticles induced S‐α‐methylbenzylamine

Zhao,

Liao,

et al. 2023

Chirality

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The chiral media is crucial to the chiral recognition and separation of enantiomers. In this study, we report the preparation of novel chiral carbon nanoparticles (CCNPs) via surface passivation using glucose as the carbon source and S‐(−)‐α‐methylbenzylamine as the chiral ligand. The structures of the obtained CCNPs are characterized via FT‐IR, Raman spectroscopy, DLS, XPS, XRD, TEM, and zeta potential analysis. These CCNPs could be employed as the chiral adsorbent and used for the enantioselective adsorption of the ibuprofen enantiomers. The results demonstrated that the CCNPs could selectively adsorb R‐enantiomer from ibuprofen racemate solution and give an enantiomeric excess (e.e.) of about 50% under an optimal adsorption condition. Moreover, the regeneration efficiency of the CCNPs remained above e.e. of 43% after the fifth cycle. The present work confirmed that the prepared CCNPs show great potential in the enantioselective separation of ibuprofen racemate.

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Section: Introductionmentioning

confidence: 99%

Enantioselective adsorption of ibuprofen enantiomers using chiral‐active carbon nanoparticles induced S‐α‐methylbenzylamine

Zhao,

Liao,

et al. 2023

Chirality

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“…In some studies, the porosity in the final or intermediate glass product was revealed. [ 19 , 29 , 33 , 34 , 35 ] For example, photoinduced phase separation precursor inks can also achieve a porous structure, [ 19 ] but it only exists in the intermediate product, and the final glass structure still needs to be densified at high temperature. Morover, such products generally lack transparency owing to the existence of large pores which scatter the light significantly, limiting their applications in optics.…”

Section: Introductionmentioning

confidence: 99%

Additive Manufacturing of Transparent Multi‐Component Nanoporous Glasses

Li,

Cooperstein

et al. 2023

Advanced Science

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Fabrication of glass with complex geocd the low resolution of particle‐based or fused glass technologies. Herein, a high‐resolution 3D printing of transparent nanoporous glass is presented, by the combination of transparent photo‐curable sol–gel printing compositions and digital light processing (DLP) technology. Multi‐component glass, including binary (Al2O3‐SiO2), ternary (ZnO‐Al2O3‐SiO2, TiO2‐Al2O3‐SiO2), and quaternary oxide (CaO‐P2O5‐Al2O3‐SiO2) nanoporous glass objects with complex shapes, high spatial resolutions, and multi‐oxide chemical compositions are fabricated, by DLP printing and subsequent sintering process. The uniform nanopores of Al2O3‐SiO2‐based nanoporous glasses with the diameter (≈6.04 nm), which is much smaller than the visible light wavelength, result in high transmittance (>95%) at the visible range. The high surface area of printed glass objectives allows post‐functionalization via the adsorption of functional guest molecules. The photoluminescence and hydrophobic modification of 3D printed glass objectives are successfully demonstrated. This work extends the scope of 3D printing to transparent nanoporous glasses with complex geometry and facile functionalization, making them available for a wide range of applications.

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3D-printed complex-shaped chiral organosilica porous monoliths that display enantioselectivity

Cited by 2 publications

References 29 publications

Enantioselective adsorption of ibuprofen enantiomers using chiral‐active carbon nanoparticles induced S‐α‐methylbenzylamine

Enantioselective adsorption of ibuprofen enantiomers using chiral‐active carbon nanoparticles induced S‐α‐methylbenzylamine

Additive Manufacturing of Transparent Multi‐Component Nanoporous Glasses

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