Biobased Transparent Thiol–Ene Polymer Networks from Levoglucosan

Stanfield, Melissa K.; Kotlarewski, Nathan; Smith, Jason; Thickett, Stuart C.

doi:10.1021/acsapm.3c02450

ACS Appl. Polym. Mater.

2023

DOI: 10.1021/acsapm.3c02450

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Biobased Transparent Thiol–Ene Polymer Networks from Levoglucosan

Melissa K. Stanfield,

Nathan Kotlarewski,

Jason Smith

et al.

Abstract: Developing thermosets from renewable feedstocks for the production of sustainable polymer networks is of great significance as the world transitions from its heavy reliance on petroleum-derived polymeric materials. Levoglucosan is a renewable chemical, obtained from the pyrolysis of cellulosic biomass and was selected for this study due to its rich functionality. Allyl and pentenoyl levoglucosan monomers were synthesized with selective chemical functionality and were rapidly cured via ultraviolet (UV)-initiate… Show more

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2024

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Cited by 3 publications

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Synthesis and Characterization of Thiol‐Ene Networks Derived from Levoglucosenone

Timilsina,

Stanfield,

Smith

et al. 2024

ChemPlusChem

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Levoglucosenone (LGO), a renewable compound obtained from cellulose biomass, has been utilized to prepare novel monomers bearing alkene functional groups. These monomer derivatives of LGO were subsequently cured via ultraviolet (UV)‐initiated radical thiol‐ene “click” chemistry with commercially available multifunctional thiols to obtain colourless, optically transparent cross‐linked thermosets. The monomers prepared in this work are unique due to utilising the internal double bond of the LGO ring during polymerization as part of the cross‐linked network. The thermal and mechanical properties along with the degradation of thermosets containing both ether and ester linkages within the LGO monomers were studied. These thermosets had tensile strengths of 1.3–3.3 MPa, glass transition temperatures between 23.2 and 27.2 °C, and good thermal stability of up to 300 °C.

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Synthesis and Characterization of Thiol‐Ene Networks Derived from Levoglucosenone

Timilsina,

Stanfield,

Smith

et al. 2024

ChemPlusChem

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Bioderived Thiol–Ene Emulsion Polymerization for Hybrid Latex Particles

Stanfield,

Weerts,

Timilsina

et al. 2024

Biomacromolecules

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The thiol−ene emulsion polymerization of three dienes synthesized from bioderived compounds, and subsequent preparation of core−shell polymer latexes, is reported. Levoglucosan (LGA), levogucosenone (LGO) and isosorbide were first modified with 4-pentenoic acid to install polymerizable groups. These monomers were used along with a dithiol to prepare poly(thioether) particles via ab initio emulsion polymerization using potassium persulfate as initiator and sodium dodecyl sulfate as surfactant. The structure of the diene significantly influenced the size of the resulting polymer latex particles. Given their low glass transition temperature, the LGA-derived poly(thioether) particles were used as a seed for the seeded emulsion polymerization of either styrene or methyl methacrylate. Core−shell latex particles with a high T g core and a low T g bioderived shell were formed, as verified by electron microscopy and in agreement with theoretical predictions of the equilibrium particle morphology based on the interfacial tensions of each particle phase.

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Norbornene Dicarboximide: A Green Alternative for Thiol-Norbornene Photopolymers

Ma,

Wright,

Wang

2024

ACS Macro Lett.

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Carbic anhydride is an underappreciated starting material for 3D-printable, non-hydrogel photopolymers. Compared with other norbornene precursors, carbic anhydride is cheaper and reactive via aminolysis. As a result, the generalized and efficient functionalization with carbic anhydride can increase the utilization of thiol-norbornene photopolymers. Here, we report carbic anhydride’s catalyst-free condensation with two commodity polymers: amine-functionalized polypropylene glycol and polydimethylsiloxane. The reaction completes in 1 h, produces water as the only byproduct, and does not require purification. It is therefore affordable, facile, and green. Mixing the product with thiol cross-linkers and the appropriate photoadditives produces photopolymers that are printable via Digital Light Processing. The photopolymers exhibit tunable tensile properties and a functional surface by varying the polymer backbone and thiol stoichiometry. Moreover, the photopolymers are 3D-printed into true-to-scale human aorta models and porous scaffolds with high resolution. The simple yet versatile platform will benefit additive manufacturing of soft materials and beyond.

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Biobased Transparent Thiol–Ene Polymer Networks from Levoglucosan

Cited by 3 publications

References 31 publications

Synthesis and Characterization of Thiol‐Ene Networks Derived from Levoglucosenone

Synthesis and Characterization of Thiol‐Ene Networks Derived from Levoglucosenone

Bioderived Thiol–Ene Emulsion Polymerization for Hybrid Latex Particles

Norbornene Dicarboximide: A Green Alternative for Thiol-Norbornene Photopolymers

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