NDLI: Aggregation of microcrystalline cellulose with polyethylenimine

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Aggregation of microcrystalline cellulose with polyethylenimine

Content Provider	Semantic Scholar
Author	Alince, Bohumil Robertson, Angela A.
Copyright Year	1974
Abstract	SummaryInteractions between suspended microcrystalline cellulose (Avicel) and polyethylenimine (PEI) with various molecular weights were examined by observing sedimentation, electrophoresis and adsorption.The experimental results are consistent with the view that both bridging and electrical stabilization play roles in the aggregation and sedimentation of microcrystalline cellulose particles in the presence of polyelectrolytes.The addition of low MW PEI affects the electrical properties of the suspension in a manner similar to simple electrolytes. The zeta potential is reduced resulting in a total coagulation with a clear supernatant at a critical level of addition. With further additions the potential is reversed, goes through a maximum and then becomes zero. The sediment volume is constant over a wide range of polymer additions. No restabilization is observed.The initial addition of higher MW PEI introduces bridging which is effective in producing flocculation that is more or less independent of the electrokinetic properties of the particles. A restabilization is observed at higher additions of polymer. Flocs, redispersed by high shear, however, show properties similar to the suspensions that were treated with low MW polymer.ZusammenfassungWechselwirkungen zwischen suspendierter mikrokristalliner Zellulose (Avicel) und Polyäthylenimin (PÄI) von verschiedenem Molekulargewicht wurden durch Beobachtungen der Sedimentation, der Elektrophorese und der Adsorption untersucht. Die Ergebnisse waren verträglich mit der Vorstellung, daß beides: Brückenbildung und elektrische Stabilisierung eine Rolle für die Aggregation und Sedimentation mikrokristalliner Cellulosepartikel in Gegenwart von Elektrolyten spielt.Die Hinzufügung von niedrigmolekularem PÄI beeinflußt die elektrischen Eigenschaften der Suspension in gleicher Weise wie einfache Elektrolyte. Das Zeta-Potential wird reduziert, was zu einer totalen Koagulation mit einer klaren überstehenden Flüssigkeit bei einer kritischen Menge an Zusatz führt. Mit weiterem Zusatz dreht sich das Potential um, geht durch ein Maximum und wird dann Null. Das Sedimentvolumen ist konstant über einen weiten Bereich der polymeren Zusätze. Keine Wiederstabilisierung wird beobachtet. Ein anfänglicher Zusatz von höhermolekularem PÄI führt Brückenbindungen ein, die Flokkulation auslösen, mehr oder weniger unabhängig von den elektrokinetischen Eigenschaften der Partikel. Eine Wiederstabilisierung wird bei höheren Polymerzusätzen beobachtet. Flocken, die durch hohe Scherungen wieder dispergiert sind, zeigen jedoch Eigenschaften, ähnlich denen von Suspensionen, welche mit niedermolekularen Polymeren behandelt wurden.
Starting Page	920
Ending Page	927
Page Count	8
File Format	PDF HTM / HTML
DOI	10.1007/BF01566612
Alternate Webpage(s)	https://page-one.springer.com/pdf/preview/10.1007/BF01566612
Alternate Webpage(s)	https://doi.org/10.1007/BF01566612
Volume Number	252
Language	English
Access Restriction	Open
Content Type	Text
Resource Type	Article

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