2020
DOI: 10.3389/fchem.2020.00690
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Ionomers From Kraft Lignin for Renewable Energy Applications

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Cited by 16 publications
(30 citation statements)
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References 127 publications
(232 reference statements)
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“…The gradually increasing feature size with IEC was consistent with the trends observed for other ionomers. 23 The dimensions of ellipsoidal features also suggested that the calix-2 films likely had ∼20–80 layers of calix[4]arenes stacked within each spheroidal feature based on the calculation of the height of one calix[4]arene unit in a stack (∼1.0 nm). Such stacked arrangement can give rise to ionic conduction pathways with multiple length scales: (i) across individual calix[4]arene units of calix-2 (molecular-level ion channels), (ii) across overlapped/aligned macrocyclic units in a stack (connected ion channels), and (iii) along the surface of the upper rims of calix[4]arene units where the −SO 3 H groups are sitting side-by-side (lateral proton hopping along the chains).…”
Section: Resultsmentioning
confidence: 99%
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“…The gradually increasing feature size with IEC was consistent with the trends observed for other ionomers. 23 The dimensions of ellipsoidal features also suggested that the calix-2 films likely had ∼20–80 layers of calix[4]arenes stacked within each spheroidal feature based on the calculation of the height of one calix[4]arene unit in a stack (∼1.0 nm). Such stacked arrangement can give rise to ionic conduction pathways with multiple length scales: (i) across individual calix[4]arene units of calix-2 (molecular-level ion channels), (ii) across overlapped/aligned macrocyclic units in a stack (connected ion channels), and (iii) along the surface of the upper rims of calix[4]arene units where the −SO 3 H groups are sitting side-by-side (lateral proton hopping along the chains).…”
Section: Resultsmentioning
confidence: 99%
“…While there have been significant efforts to design ionomers to improve the ionic conductivity of bulk membranes, 15 17 , 21 , 22 ionomers are rarely designed keeping in mind the specific issues associated with nanoscale confined thin films and with a target to improve thin-film ionic conductivity. 23 25 …”
Section: Introductionmentioning
confidence: 99%
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“…These studies are of high relevance to proton exchange membrane fuel cells in which the ion conduction limitation within a submicron thick ionomer (like Nafion, Figure a) layer at catalyst interface slows down the electrochemical reaction. , While the properties of bulk, free-standing, several tens of μm-thick ionomer membranes have been explored extensively, the understanding of ionomer thin films (<1 μm thick) is still inadequate. The continued efforts to unravel thin film behavior have made it evident that the proton conductivity of submicron thick ionomer films are influenced in a complex manner by parameters such as hydrophilic–hydrophobic phase separation; ionic domain size, , spacing, and connectivity; ,, water–ionomer mobility ,,, and orientation; ,, water–ionomer–substrate interfacial interactions; , and film stiffness. ,,,,, …”
mentioning
confidence: 99%
“…Fluorescent dyes have made an unprecedented improvement of our understanding of confined/nanoscopic systems by revealing (i) glass transition temperature, T g (pyrene-based dyes); (ii) water diffusion coefficient, viscosity, mobility, ,, and stiffness ,,,,, (rotor probes); (iii) proton transport dynamics, proton concentration, ,, and ionic domain size (photoacid probes); and many other properties. Earlier, we incorporated a fluorescent photoacid probe HPTS (Figure b, top) within ionomer samples. ,, HPTS is sensitive to the local proton conduction environment and exhibits ratiometric fluorescence response ( I d / I P ).…”
mentioning
confidence: 99%