Literature DB >> 26301859

Simple Freeze-Drying Procedure for Producing Nanocellulose Aerogel-Containing, High-Performance Air Filters.

Junji Nemoto1,2, Tsuguyuki Saito1, Akira Isogai1.   

Abstract

Simple freeze-drying of 2,2,6,6-tetramethylpiperidine-1-oxyl (TEMPO)-oxidized cellulose nanofibril (TOCN) dispersions in water/tert-butyl alcohol (TBA) mixtures was conducted to prepare TOCN aerogels as high-performance air filter components. The dispersibility of the TOCNs in the water/TBA mixtures, and the specific surface area (SSA) of the resulting TOCN aerogels, was investigated as a function of the TBA concentration in the mixtures. The TOCNs were homogeneously dispersed in the water/TBA mixtures at TBA concentrations up to 40% w/w. The SSAs of the TOCN aerogels exceeded 300 m2/g when the TBA concentration in the aqueous mixtures was in the range from 20% to 50% w/w. When a commercially available, high-efficiency particulate air (HEPA) filter was combined with TOCN/water/TBA dispersions prepared using 30% TBA, and the product was freeze-dried, the resulting TOCN aerogel-containing filters showed superior filtration properties. This was because nanoscale, spider-web-like networks of the TOCNs with large SSAs were formed within the filter.

Entities:  

Keywords:  aerogel; air filter; freeze-drying; nanocellulose; specific surface area

Year:  2015        PMID: 26301859     DOI: 10.1021/acsami.5b05841

Source DB:  PubMed          Journal:  ACS Appl Mater Interfaces        ISSN: 1944-8244            Impact factor:   9.229


  15 in total

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2.  Biophysical Characterization and Cytocompatibility of Cellulose Cryogels Reinforced with Chitin Nanowhiskers.

Authors:  Irina V Tyshkunova; Iosif V Gofman; Dmitry G Chukhchin; Alexey V Malkov; Alexander I Mishanin; Alexey S Golovkin; Ekaterina N Pavlova; Daria N Poshina; Yury A Skorik
Journal:  Polymers (Basel)       Date:  2022-06-30       Impact factor: 4.967

3.  Hazy Transparent Cellulose Nanopaper.

Authors:  Ming-Chun Hsieh; Hirotaka Koga; Katsuaki Suganuma; Masaya Nogi
Journal:  Sci Rep       Date:  2017-01-27       Impact factor: 4.379

4.  Interfacial Hydrolysis of Acetals on Protonated TEMPO-oxidized Cellulose Nanofibers.

Authors:  Yuya Tamura; Kyohei Kanomata; Takuya Kitaoka
Journal:  Sci Rep       Date:  2018-03-22       Impact factor: 4.379

5.  Adhesion and Stability of Nanocellulose Coatings on Flat Polymer Films and Textiles.

Authors:  Raha Saremi; Nikolay Borodinov; Amine Mohamed Laradji; Suraj Sharma; Igor Luzinov; Sergiy Minko
Journal:  Molecules       Date:  2020-07-16       Impact factor: 4.411

Review 6.  Nanocellulose: From Fundamentals to Advanced Applications.

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Journal:  Front Chem       Date:  2020-05-06       Impact factor: 5.221

Review 7.  Development of completely dispersed cellulose nanofibers.

Authors:  Akira Isogai
Journal:  Proc Jpn Acad Ser B Phys Biol Sci       Date:  2018       Impact factor: 3.493

8.  Enhancing the Stability of Aqueous Dispersions and Foams Comprising Cellulose Nanofibrils (CNF) with CaCO₃ Particles.

Authors:  Tiia-Maria Tenhunen; Tiina Pöhler; Annaleena Kokko; Hannes Orelma; Patrick Gane; Michel Schenker; Tekla Tammelin
Journal:  Nanomaterials (Basel)       Date:  2018-08-23       Impact factor: 5.076

9.  A General Aqueous Silanization Protocol to Introduce Vinyl, Mercapto or Azido Functionalities onto Cellulose Fibers and Nanocelluloses.

Authors:  Marco Beaumont; Markus Bacher; Martina Opietnik; Wolfgang Gindl-Altmutter; Antje Potthast; Thomas Rosenau
Journal:  Molecules       Date:  2018-06-12       Impact factor: 4.411

10.  Poly(urethane-norbornene) Aerogels via Ring Opening Metathesis Polymerization of Dendritic Urethane-Norbornene Monomers: Structure-Property Relationships as a Function of an Aliphatic Versus an Aromatic Core and the Number of Peripheral Norbornene Moieties.

Authors:  Aspasia Kanellou; George C Anyfantis; Despoina Chriti; Grigorios Raptopoulos; Marinos Pitsikalis; Patrina Paraskevopoulou
Journal:  Molecules       Date:  2018-04-25       Impact factor: 4.411
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