Azhar Hussain Shah scite author profile

Für die Synthese von Tensiden mit bestimmten Eigenschaften werden verschiedene Vorgehensweisen der Synthese ausgearbeitet. In der gegenwärtigen Arbeit werden einige kostengünstige Vorgehensweisen mit reduzierter Anzahl an Reaktionsschritten zur äußerst effizienten Synthese biologisch abbaubarer und umweltfreundlicher Tenside diskutiert. Die in diesen Methoden verwendeten Ausgangsmaterialien stammen aus ökonomisch günstigen Quellen wie Monosacchariden, Harzsäuren, Fettsäuren etc. Kosten entstehen dann nur noch aufgrund des Einsatzes von Lösemitteln und Spezialreagenzien. Obwohl viele Naturprodukte bereits jetzt schon erhältlich sind, sind nur einige wenige für die Umsetzung zu Tensiden geeignet. Die Diskussion über die Herstellung von verschiedenen Tensiden für gängige Produkte ergibt sich aus der Tatsache, dass kein gutes Universaltensid für jede potentielle Anwendung erhältlich ist.

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Study of Proton Transport in Diethylmethylammonium Poly[4-styrenesulfonyl(trifluoromethylsulfonyl)imide]-Based Composite Membranes with Triflic Acid and Diethylmethylamine-Rich Compositions

Shah

Rana

Zhu

et al. 2021

J. Phys. Chem. B

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The study highlights the effect of acid-and baserich conditions on the proton dynamics of diethylmethylammonium poly[4-styrenesulfonyl(trifluoromethylsulfonyl)imide, [DEMA][PSTFSI], a polymerized protic ionic liquid designed as a polymer electrolyte for nonhumidified polymer electrolyte membrane fuel cells. Different proportions of triflic acid (HTf) and diethylmethylamine (DEMA) were added to the pristine polymer. The thermal analysis of the mixtures revealed that the addition of the base increases the glassy/amorphous nature of the polymer; however, HTf plasticizes the polymer and lowers the T g value, so that it falls outside of the differential scanning calorimetry-studied temperature range. 50 mol % doping of the HTf contents increases the conductivity upto 0.952 mS cm −1 , and 50 mol % DEMA mixture has a conductivity of 0.169 mS cm −1 at 100 °C. Vogel−Tamman−Fulcher fitting of the ionic conductivities of the doped systems suggested that the ionic conductivities are completely decoupled from segmental motion of the polymer. A combination of Fourier transform infrared and static NMR studies demonstrated that HTf-added polymer composites show conduction via Grotthuss and vehicular mechanisms, while DEMA-added polymer composites show predominantly a Grotthuss mechanism by developing the aggregates of proton and added base.

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Azhar Hussain Shah

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Study of Proton Transport in Diethylmethylammonium Poly[4-styrenesulfonyl(trifluoromethylsulfonyl)imide]-Based Composite Membranes with Triflic Acid and Diethylmethylamine-Rich Compositions

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