Bacterial Nanocellulose from Side-Streams of Kombucha Beverages Production: Preparation and Physical-Chemical Properties

Bacterial Nanocellulose from Side-Streams of Kombucha Beverages Production: Preparation and Physical-Chemical Properties

We focused on preparing cellulose nanofibrils by purification, separation, and mechanical treatment of Kombucha membranes (KM) resulted as secondary product from beverage production by fermentation of tea broth with symbiotic culture of bacteria and yeast (SCOBY). We purified KM using two alkaline s...

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Main Authors: Stefan-Ovidiu Dima, Denis-Mihaela Panaitescu, Csongor Orban, Marius Ghiurea, Sanda-Maria Doncea, Radu Claudiu Fierascu, Cristina Lavinia Nistor, Elvira Alexandrescu, Cristian-Andi Nicolae, Bogdan Trică, Angela Moraru, Florin Oancea
Format: Article
Language:English
Published: MDPI AG 2017-08-01
Series:Polymers
Subjects:
nanocellulose
Kombucha membranes
spray-drying
microfluidization
bacterial nanofibrils
Online Access:https://www.mdpi.com/2073-4360/9/8/374
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spelling doaj-bc92ed42eb1745c7adb652dcb2d601d92020-11-24T20:41:33ZengMDPI AGPolymers2073-43602017-08-019837410.3390/polym9080374polym9080374Bacterial Nanocellulose from Side-Streams of Kombucha Beverages Production: Preparation and Physical-Chemical PropertiesStefan-Ovidiu Dima0Denis-Mihaela Panaitescu1Csongor Orban2Marius Ghiurea3Sanda-Maria Doncea4Radu Claudiu Fierascu5Cristina Lavinia Nistor6Elvira Alexandrescu7Cristian-Andi Nicolae8Bogdan Trică9Angela Moraru10Florin Oancea11INCDCP ICECHIM, 202 Splaiul Independentei, Bucharest 060021, RomaniaINCDCP ICECHIM, 202 Splaiul Independentei, Bucharest 060021, RomaniaS.C. Corax Bioner CEU S.A., 53 Sarkadi Elek, Miercurea Ciuc 530200, RomaniaINCDCP ICECHIM, 202 Splaiul Independentei, Bucharest 060021, RomaniaINCDCP ICECHIM, 202 Splaiul Independentei, Bucharest 060021, RomaniaINCDCP ICECHIM, 202 Splaiul Independentei, Bucharest 060021, RomaniaINCDCP ICECHIM, 202 Splaiul Independentei, Bucharest 060021, RomaniaINCDCP ICECHIM, 202 Splaiul Independentei, Bucharest 060021, RomaniaINCDCP ICECHIM, 202 Splaiul Independentei, Bucharest 060021, RomaniaINCDCP ICECHIM, 202 Splaiul Independentei, Bucharest 060021, RomaniaS.C. Laboratoarele Medica Srl, 11 Frasinului Str., Otopeni 075100, RomaniaINCDCP ICECHIM, 202 Splaiul Independentei, Bucharest 060021, RomaniaWe focused on preparing cellulose nanofibrils by purification, separation, and mechanical treatment of Kombucha membranes (KM) resulted as secondary product from beverage production by fermentation of tea broth with symbiotic culture of bacteria and yeast (SCOBY). We purified KM using two alkaline solutions, 1 and 4 M NaOH, which afterwards were subjected to various mechanical treatments. Transmission electron microscopy (TEM), scanning electron microscopy (SEM), dynamic light scattering (DLS), X-ray diffraction (XRD), X-ray fluorescence (XRF), Fourier-transform infrared spectroscopy (FTIR), and thermogravimetric analysis (TGA) were employed to evaluate the purification degree, the size and aspect of cellulose fibrils after each treatment step, the physical-chemical properties of intermediary and final product, and for comparison with micro-crystalline cellulose from wooden sources. We determined that 1 M NaOH solution leads to approx. 85% purification, while a higher concentration assures almost 97% impurities removal. XRD analysis evidenced an increase in crystallinity from 37% to 87% after purification, the characteristic diffractograms of Iα and Iβ cellulose allomorphs, and a further decrease in crystallinity to 46% after microfluidization, fact correlated with a drastically decrease in fibrils’ size. FTIR analysis evidenced the appearance of new chain ends by specific transmission bands at 2941 and 2843cm−1.https://www.mdpi.com/2073-4360/9/8/374nanocelluloseKombucha membranesspray-dryingmicrofluidizationbacterial nanofibrils
collection DOAJ
language English
format Article
sources DOAJ
author Stefan-Ovidiu Dima
Denis-Mihaela Panaitescu
Csongor Orban
Marius Ghiurea
Sanda-Maria Doncea
Radu Claudiu Fierascu
Cristina Lavinia Nistor
Elvira Alexandrescu
Cristian-Andi Nicolae
Bogdan Trică
Angela Moraru
Florin Oancea
spellingShingle Stefan-Ovidiu Dima
Denis-Mihaela Panaitescu
Csongor Orban
Marius Ghiurea
Sanda-Maria Doncea
Radu Claudiu Fierascu
Cristina Lavinia Nistor
Elvira Alexandrescu
Cristian-Andi Nicolae
Bogdan Trică
Angela Moraru
Florin Oancea
Bacterial Nanocellulose from Side-Streams of Kombucha Beverages Production: Preparation and Physical-Chemical Properties
Polymers
nanocellulose
Kombucha membranes
spray-drying
microfluidization
bacterial nanofibrils
author_facet Stefan-Ovidiu Dima
Denis-Mihaela Panaitescu
Csongor Orban
Marius Ghiurea
Sanda-Maria Doncea
Radu Claudiu Fierascu
Cristina Lavinia Nistor
Elvira Alexandrescu
Cristian-Andi Nicolae
Bogdan Trică
Angela Moraru
Florin Oancea
author_sort Stefan-Ovidiu Dima
title Bacterial Nanocellulose from Side-Streams of Kombucha Beverages Production: Preparation and Physical-Chemical Properties
title_short Bacterial Nanocellulose from Side-Streams of Kombucha Beverages Production: Preparation and Physical-Chemical Properties
title_full Bacterial Nanocellulose from Side-Streams of Kombucha Beverages Production: Preparation and Physical-Chemical Properties
title_fullStr Bacterial Nanocellulose from Side-Streams of Kombucha Beverages Production: Preparation and Physical-Chemical Properties
title_full_unstemmed Bacterial Nanocellulose from Side-Streams of Kombucha Beverages Production: Preparation and Physical-Chemical Properties
title_sort bacterial nanocellulose from side-streams of kombucha beverages production: preparation and physical-chemical properties
publisher MDPI AG
series Polymers
issn 2073-4360
publishDate 2017-08-01
description We focused on preparing cellulose nanofibrils by purification, separation, and mechanical treatment of Kombucha membranes (KM) resulted as secondary product from beverage production by fermentation of tea broth with symbiotic culture of bacteria and yeast (SCOBY). We purified KM using two alkaline solutions, 1 and 4 M NaOH, which afterwards were subjected to various mechanical treatments. Transmission electron microscopy (TEM), scanning electron microscopy (SEM), dynamic light scattering (DLS), X-ray diffraction (XRD), X-ray fluorescence (XRF), Fourier-transform infrared spectroscopy (FTIR), and thermogravimetric analysis (TGA) were employed to evaluate the purification degree, the size and aspect of cellulose fibrils after each treatment step, the physical-chemical properties of intermediary and final product, and for comparison with micro-crystalline cellulose from wooden sources. We determined that 1 M NaOH solution leads to approx. 85% purification, while a higher concentration assures almost 97% impurities removal. XRD analysis evidenced an increase in crystallinity from 37% to 87% after purification, the characteristic diffractograms of Iα and Iβ cellulose allomorphs, and a further decrease in crystallinity to 46% after microfluidization, fact correlated with a drastically decrease in fibrils’ size. FTIR analysis evidenced the appearance of new chain ends by specific transmission bands at 2941 and 2843cm−1.
topic nanocellulose
Kombucha membranes
spray-drying
microfluidization
bacterial nanofibrils
url https://www.mdpi.com/2073-4360/9/8/374
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