Determination of Particle Size Distributions, Molecular Weight Distributions, Swelling, Conformation, and Morphology of Dilute Suspensions of Cross-Linked Polymeric Nanoparticles via Size-Exclusion Chromatography/Differential Viscometry

Meunier, David M.; Lyons, Jim; Kiefer, Joseph J.; Niu, Q. Jason; DeLong, L. Mark; Li, Yongfu; Russo, Paul S.; Cueto, Rafael; Edwin, Nadia J.; Bouck, Kevin J.; Silvis, H. Craig; Tucker, Christopher; Kalantar, Thomas H.

doi:10.1021/ma501420z

Cited by 12 publications

(5 citation statements)

References 90 publications

(66 reference statements)

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“…However, aggregations and cross-linked polymeric nanoparticles have also been shown to exhibit the same trait, where the characteristic M w independent behavior of [η] is observed. , To get more explicit topological information, the ratio R g / R h (ρ) which is naturally independent of M w is employed. A value of ∼1.31 is obtained that infers the existence of hyperbranched polymers. , Moreso, similar values have been reported for vesicle-like structures …”

Section: Resultsmentioning

confidence: 99%

“…The addition of an online viscometer (dVis) to other information-rich detectors enables the online measurement of absolute M w , CCs, R h , viscosity-based sizes ( R gη and R η ), and [η] for complex polymers and ultimately for SAs. [η] and the respective sizes can subsequently be used to derive information on molecular density, shape, and structure of SAs as well as their respective distributions. − In general, online viscometry is applied in polymer analysis when investigating branching and branching distributions. − By conceptualizing the aggregation number ( Z ) as a form of branching, SAs can in principle be regarded as pseudobranched materials. To some point their solution properties can be expected to exhibit parallel trends with branched materials.…”

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confidence: 99%

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Thermal Field-Flow Fractionation with Quintuple Detection for the Comprehensive Analysis of Complex Polymers

Muza

Pasch

2019

Anal. Chem.

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With a constantly increasing complexity of macromolecular structures, advanced polymer analysis faces new challenges with regard to the comprehensive analysis of these structures. Today it goes without saying that comprehensive polymer analysis requires selective and robust fractionation methods in combination with a set of information-rich detectors. Thermal field-flow fractionation (ThFFF) has proven to be a powerful technique for the fractionation of complex polymers as well as polymer assemblies. In the present study, ThFFF is coupled to a set of five detectors to simultaneously provide quantitative information on a number of important molecular parameters, including molar mass, molecular size, chemical composition, molecular topology, intrinsic viscosity, and normal and thermal diffusion coefficients. The five-detector setup includes a triple detector device (multiangle light scattering (MALS), differential refractive index (dRI), and differential viscometer (dVis)) that is coupled to an ultraviolet (UV) detector for dual concentration detection and an online dynamic light scattering (DLS) detector. Triple detection consisting of MALS, dRI, and dVis provides information on molar mass, molecular size, and molecular topology. Dual concentration detection offers compositional analysis from a combination of UV and dRI detectors, whereas DLS provides information on diffusion coefficients and hydrodynamic radii. The power of this novel quintuple detector ThFFF (ThFFF-QD) is documented for three important fields of application, namely, the comprehensive analysis of (1) linear and star-shaped polymers, (2) hydrogenated and deuterated polymers, and (3) block copolymer self-assemblies. These applications highlight the novel approach of determining the most relevant molecular parameters, including Mark−Houwink and conformation plots, simultaneously in a single experiment.

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Section: Resultsmentioning

confidence: 99%

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confidence: 99%

Thermal Field-Flow Fractionation with Quintuple Detection for the Comprehensive Analysis of Complex Polymers

Muza

Pasch

2019

Anal. Chem.

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“…Reliable SEC data corresponding to swollen globules having φ = 0.5 are summarized in Table . From these experimental data, the M app / M ratio can be easily computed and compared to the predicted one for swollen globules (Equation , φ = 0.5), as illustrated in Figure A (green solid triangles).…”

Section: Discussionmentioning

confidence: 99%

“…Unfortunately, absence of Ð data in ref. (only Ð app was reported) does not allow one to provide a comparison of experimental and theoretical Ð app / Ð ratios in Figure B.…”

Section: Discussionmentioning

confidence: 99%

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A Useful Methodology for Determining the Compaction Degree of Single‐Chain Nanoparticles by Conventional SEC

Latorre-Sánchez

Alegría

Verso

et al. 2016

Part & Part Syst Charact

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The folding/collapse of linear single chains to single‐chain nanoparticles (SCNPs) is a field of intense activity. Current synthetic methods allow obtaining from sparse SCNP morphologies in solution – resembling those observed in intrinsically disordered proteins – to compact SCNP conformations, more akin to those displayed by globular enzymes. A useful characterization technique in the field of SCNPs is “conventional” size‐exclusion chromatography (SEC) with differential refractive index (DRI) detection, providing rapid and convincing evidence of SCNP formation through comparison of the SEC traces of the precursor and the SCNPs. Upon SCNP formation, a noticeable shift of the SEC curve toward longer retention times (i.e., lower hydrodynamic sizes) is observed. However, quantitative information embedded in the SEC curve about the actual “compaction degree” of the SCNPs has not yet been extracted to distinguish between sparse and globular SCNPs. Here, a useful methodology for quantifying the compaction degree of SCNPs by SEC with conventional DRI detector is introduced allowing: i) construction of theoretical SEC curves corresponding to the collapse of a linear precursor having a log‐normal molecular weight distribution to either sparse or globular SCNPs and ii) analysis of experimental SEC curves to estimate the actual morphology of synthetic SCNPs in solution.

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“Twin Chain” PVA Cryogels with Controlled Tortuosity as Advanced Materials for Cleaning of Works of Art

Mastrangelo,

Bandelli,

Pensabene Buemi

et al. 2024

Adv Funct Materials

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Soft matrices with tuned properties are part of the vast landscape of innovative materials for the restoration of works of art. “Twin chain” polymer networks (TC‐PNs) based on polyvinyl alcohol have proven unique as scaffolds for Cultural Heritage cleaning. They enable optimum adaptability, adhesion, porosity, and connectivity at both micro‐ and nano‐scale resulting in superior time/space‐controlled cleaning operations. In this work, TC‐PNs properties are tuned through a mild crosslinking of the poly(vinyl alcohol) (PVA)‐porogen polymer by using sebacic, adipic, or succinic acid. The modified porogens have different structural features imparting a different phase behavior to TC‐PVAs mixtures in aqueous solution, i.e., in pre‐gel systems used to form gels through a liquid–liquid phase separation. The macro‐, micro‐, and nanoscale features of the final gels are characterized by Confocal Laser Scanning Microscopy, Small Angle X‐ray Scattering, Rheology and are related to their cleaning performances. The study shows that the gels cleaning capacity is related to their tortuosity, that can be tailored at the nanoscale. Counterintuitively gels with higher tortuosity show better performances as evidenced by the cleaning of mockups and paintings from Jean Helion, Jackson Pollock, and Tancredi Parmeggiani at Peggy Guggenheim Collection in Venice.

show abstract

Determination of Particle Size Distributions, Molecular Weight Distributions, Swelling, Conformation, and Morphology of Dilute Suspensions of Cross-Linked Polymeric Nanoparticles via Size-Exclusion Chromatography/Differential Viscometry

Cited by 12 publications

References 90 publications

Thermal Field-Flow Fractionation with Quintuple Detection for the Comprehensive Analysis of Complex Polymers

Thermal Field-Flow Fractionation with Quintuple Detection for the Comprehensive Analysis of Complex Polymers

A Useful Methodology for Determining the Compaction Degree of Single‐Chain Nanoparticles by Conventional SEC

“Twin Chain” PVA Cryogels with Controlled Tortuosity as Advanced Materials for Cleaning of Works of Art

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