Transparent lignin nanoparticles for superhydrophilic antifogging coatings and photonic films

[Display omitted] •Using lignin nanoparticles as transparent superhydrophilic antifogging coatings.•Preparing photonic lignin nanoparticle films with controllable colors.•Selective, quick, and direct lignin acetylation with conventional systems.•Scalable process for ≤ 100 nm lignin nanoparticle form...

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Bibliographic Details
Published inChemical engineering journal (Lausanne, Switzerland : 1996) Vol. 475; p. 145965
Main Authors Henn, Karl Alexander, Babaeipour, Sahar, Forssell, Susanna, Nousiainen, Paula, Meinander, Kristoffer, Oinas, Pekka, Österberg, Monika
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.11.2023
Subjects
Acetylation
Antifogging
Lignin
LNP
Nanoparticles
Structural color
Nanoparticles
Structural color
Antifogging
Lignin
Acetylation
LNP
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Summary:[Display omitted] •Using lignin nanoparticles as transparent superhydrophilic antifogging coatings.•Preparing photonic lignin nanoparticle films with controllable colors.•Selective, quick, and direct lignin acetylation with conventional systems.•Scalable process for ≤ 100 nm lignin nanoparticle formation at high concentrations. Lignin nanoparticles are useful in multiple applications, but their opaqueness remains an obstacle in optical applications. In this study, we present a method to prepare optically clear lignin nanoparticle dispersions from acetylated lignin. Thin lignin nanoparticle films remained transparent when deposited on glass and other smooth surfaces, and monolayered particle films provided effective antifogging properties. The particles could also be used to prepare multilayered films with bright structural colors that could be controlled via the film-thickness and were retained in dry conditions. We also developed an improved energy- and cost-efficient esterification method for controlled and quick lignin acetylation. The reaction could be selectively controlled to acetylate only aliphatic groups or to also include phenolic groups. We show here that stable nanoparticle dispersions can be produced from acetylated lignin at very high initial lignin concentrations without the formation of aggregates. Both the very short reaction time and high possible lignin concentration make the process industrially feasible as shown with a preliminary techno-economic assessment.
ISSN:1385-8947
1873-3212
DOI:10.1016/j.cej.2023.145965