Use of β‐cyclodextrins to control the structure of water‐soluble copolymers with hydrophobic parts

Nielsen, Anne Louise; Andersen, Morten Boel Overgaard; Bugge, Thomas Vistisen; Nielsen, Christian Fiil; Nielsen, Troels Bach; Wimmer, Reinhard; Yu, Donghong; Larsen, Kim Lambertsen

doi:10.1002/pola.23704

Cited by 10 publications

(6 citation statements)

References 33 publications

(69 reference statements)

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“…In the spectrum of the block copolymer (spectrum a), multiple broad peaks in the range from 7.65 to 8.38 ppm representing protons on the pendant pyrenyl groups were observed due to the multiple microenvironments 40 and short relaxation times. 41 However, after the cleavage reaction, multiple peaks of fine structure attributed to pyrenyl groups appear in the range from 7.87 to 8.43 ppm, as shown in spectrum b. The differences in the two 1 H NMR spectra are attributed to the degrafting of the pyrenyl groups from the backbones after the cleavage reaction.…”

Section: ■ Results and Discussionmentioning

confidence: 96%

“…Figure shows 1 H NMR spectra of PEG 109 - b -P(MAOHD 14 - g -Py) in deuterated THF before and after addition of Bu 3 P. After addition of Bu 3 P, signals at 4.23 and 2.88 ppm corresponding to the four methylene protons next to the disulfide bonds disappeared, and new peaks at 4.16 and 4.08 ppm (peaks 1 and 2 in spectrum b) representing the methylene protons directly connected to the ester groups on the polymer and to the pyrene-containing small molecular compound were observed. In the spectrum of the block copolymer (spectrum a), multiple broad peaks in the range from 7.65 to 8.38 ppm representing protons on the pendant pyrenyl groups were observed due to the multiple microenvironments and short relaxation times . However, after the cleavage reaction, multiple peaks of fine structure attributed to pyrenyl groups appear in the range from 7.87 to 8.43 ppm, as shown in spectrum b.…”

Section: Resultsmentioning

confidence: 98%

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Self-Assembly of a Diblock Copolymer with Pendant Disulfide Bonds and Chromophore Groups: A New Platform for Fast Release

et al. 2012

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An amphiphilic block copolymer comprising poly(ethylene glycol) (PEG) and poly(2-(methacryloyl)oxyethyl-2'-hydroxyethyl disulfide) (PMAOHD) blocks was synthesized by atom transfer radical polymerization (ATRP). Pyrenebutyric acid was conjugated to the block copolymer by esterification, and a block copolymer with pendant disulfide bonds and pyrenyl groups (PEG-b-P(MAOHD-g-Py)) was obtained. (1)H NMR and gel permeation chromatography (GPC) results demonstrated the successful synthesis of the block copolymer. The cleavage of the disulfide bonds and the degrafting of the pyrenyl groups were investigated in THF and a THF/methanol mixture. Fluorescence spectroscopy, GPC, and (1)H NMR results demonstrated fast cleavage of the disulfide bonds by Bu(3)P in THF. Fluorescence results showed the ratio of the intensity of the excimer peak to the monomer peak decreased rapidly within 20 min. GPC traces of the block copolymer moved to a long retention time region after addition of Bu(3)P, indicating the cleavage of the disulfide bonds and the degrafting of the pyrenyl groups. PEG-b-P(MAOHD-g-Py) can self-assemble into micelles with poly(MAOHD-g-Py) cores and PEG coronae in a mixture of methanol and THF (9:1 by volume). The dissociation of the micelles in the presence of Bu(3)P was investigated. After cleavage of the disulfide bonds in the micellar cores, a pyrene-containing small molecular compound and a block copolymer with pendant thiol groups were produced. Transmission electron microscopy (TEM), dynamic light scattering (DLS), and (1)H NMR were employed to track the dissociation of the polymeric micelles. All the techniques demonstrated the dissociation of the micelles and the fast release of pyrenyl groups from the micelles.

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Section: ■ Results and Discussionmentioning

confidence: 96%

Section: Resultsmentioning

confidence: 98%

Self-Assembly of a Diblock Copolymer with Pendant Disulfide Bonds and Chromophore Groups: A New Platform for Fast Release

et al. 2012

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“…CDs are a family of cyclic oligosaccharides derived from starch. Among these, only α‐, β‐, and γ‐CDs and a range of their chemical derivatives are commercially available . CDs possess a relatively hydrophobic cavity and a hydrophilic outer shell.…”

Section: Introductionmentioning

confidence: 99%

Preparation and characterization of a temperature‐sensitive nonwoven poly(propylene) with increased affinity for guest molecules

Amiri

Duroux

Nielsen

et al. 2014

J of Applied Polymer Sci

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A temperature-sensitive hydrogel with the capability of inclusion complex formation with guest molecules was successfully grafted onto the surface of nonwoven polypropylene (nonwoven PP). This was carried out by the use of N-isopropylacrylamide monomer and a modified cyclodextrin (acrylamidomethyl-b-cyclodextrin (b-CD-NMA)). Fourier-transform infra red (FT-IR) and elemental analyses confirmed the presence of poly(N-isopropylacrylamide) (PNIPAAm) and b-CD-NMA components on the surface of the textile. Equilibrium swelling ratio measurements showed that the grafted hydrogel maintained its temperature-sensitive property compared to a nongrafted hydrogel. The effect of b-CD-NMA and crosslink agent concentrations on the grafting yield was studied. The b-CD-NMA content into the PNIPPAMb-CD-NMA grafted nonwoven PP (PNIPAAm-b-CD-NMA-PP) was estimated by FT-IR through a new procedure. The estimated amounts of b-CD-NMA in PNIPAAm-b-CD-NMA-PP were determined to be 0.9, 1.9 mg g 21 for 0.019M and 0.049M concentrations of b-CD-NMA in monomer solution, respectively. The PNIPAAm-b-CD-NMA-PP showed a remarkable increase in absorbance affinity of 8-anilino-1-naphthalenesulfonic acid ammonium salt at 20 C from 0.93 to 3.33 mmol g 21 compared to PNIPAAm-PP. Furthermore, the results showed a temperature-sensitive loading affinity for PNIPAAm-b-CD-NMA-PP in absorbance of guest molecules due to the presence of b-CD-NMA. The use of hydrophobic guest molecules such as fragrance oils and antibiotics in modified fabrics can provide new applications in textile and pharmaceutical industry.

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“…Cyclodextrins (CDs) are cyclic oligosaccharides which derive from starch. Among this cyclic oligosaccharides, a-, b-, and g-CDs and a range of their chemical derivatives are commercially available [17]. CDs possess a relatively hydrophobic cavity and a hydrophilic outer shell.…”

Section: Introductionmentioning

confidence: 99%

Preparation and characterization of thermal-responsive non-woven poly (propylene) materials grafted withN-isopropylacrylamide/ β-cyclodextrin

Amiri

Ali

Mallakpour

et al. 2012

Journal of Industrial Textiles

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A temperature-sensitive hydrogel was successfully grafted on the surface of non-woven poly(propylene) materials. This was carried out by the application of unmodified b-cyclodextrin and N-isopropylacrylamide monomer in order to develop new functional hydrogels for textile science and technology. Graft polymerization technique was used to graft this temperature-sensitive hydrogel on the surface of plasma-treated nonwoven poly(propylene) materials. Fourier transform infrared attenuated total reflection, scanning electron microscopy and elemental analyses confirmed the presence of poly (N-isopropylacrylamide) and b-cyclodextrin components on the surface of the textile. Unmodified b-cyclodextrin content was estimated by the use of elemental analysis to be 97 mg/cm 2 . The water uptake measurements and differential scanning calorimetry analyses showed that the hydrogel maintained its temperature-sensitive property with a lower critical solution temperature (33.23 C) compared to a non-grafted hydrogel. The wicking time and contact angle measurements showed an improvement of the wicking ability and hydrophilicity of modified non-woven poly(propylene) materials.

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Use of β‐cyclodextrins to control the structure of water‐soluble copolymers with hydrophobic parts

Cited by 10 publications

References 33 publications

Self-Assembly of a Diblock Copolymer with Pendant Disulfide Bonds and Chromophore Groups: A New Platform for Fast Release

Self-Assembly of a Diblock Copolymer with Pendant Disulfide Bonds and Chromophore Groups: A New Platform for Fast Release

Preparation and characterization of a temperature‐sensitive nonwoven poly(propylene) with increased affinity for guest molecules

Preparation and characterization of thermal-responsive non-woven poly (propylene) materials grafted withN-isopropylacrylamide/ β-cyclodextrin

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