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Dispersion of aluminum‐doped zinc oxide nanopowder in non‐aqueous suspensions
Author(s) -
Li ChiaChen,
Li MingJyun,
Huang YungPin
Publication year - 2017
Publication title -
journal of the american ceramic society
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.9
H-Index - 196
eISSN - 1551-2916
pISSN - 0002-7820
DOI - 10.1111/jace.15030
Subject(s) - dispersant , vinyl alcohol , polyelectrolyte , materials science , chemical engineering , zinc , zeta potential , dispersion (optics) , aqueous solution , dispersion stability , colloid , polymer chemistry , nanoparticle , chemistry , polymer , organic chemistry , composite material , nanotechnology , physics , optics , metallurgy , engineering
Abstract This study proposes appropriate dispersants for dispersing aluminum‐doped zinc oxide ( AZO ) nanopowder in the commonly used organic solvent‐dimethylacetamide ( DMAC ). The dispersion efficiencies and stabilization mechanisms of four DMAC ‐soluble dispersants, poly(acrylic acid) ( PAA ), polyethyleneimine ( PEI ), poly(vinyl alcohol) ( PVA ), and poly(vinyl pyrrolidone) ( PVP ), are compared. The non‐polyelectrolyte‐based PVA and PVP surprisingly exhibit greater efficiency than the polyelectrolyte‐based PAA and PEI . This is because the nano AZO is soft‐agglomerated in DMAC and easily de‐agglomerated by the application of ultrasonic power; therefore, the increased viscosity contributed from additions of PVA and PVP efficiently prevent reagglomeration and sedimentation of the nanopowder. This stabilization mechanism is evidenced by an experimental analysis of zeta potentials and rheology and also by theoretical calculations based on Stokes’ law.