Journal of Biomaterials and Nanobiotechnology

Journal of Biomaterials and Nanobiotechnology

ISSN Print: 2158-7027
ISSN Online: 2158-7043
www.scirp.org/journal/jbnb
E-mail: jbnb@scirp.org
"State of the Art Manufacturing and Engineering of Nanocellulose: A Review of Available Data and Industrial Applications"
written by Serge Rebouillat, Fernand Pla,
published by Journal of Biomaterials and Nanobiotechnology, Vol.4 No.2, 2013
has been cited by the following article(s):
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[2] Synthesis and characterization of nanocrystalline cellulose as reinforcement in nitrile butadiene rubber composites
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[3] Innovating Generation of Nanocellulose from Industrial Hemp by Dual Asymmetric Centrifugation
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[4] Coaxial spinning of all-cellulose systems for enhanced toughness: filaments of oxidized nanofibrils sheathed in cellulose II regenerated from a protic ionic liquid
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[5] Preparation of nanocellulose acetate from bleached hardwood pulp and its application for seawater desalination
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[6] Nanocellulose from recycled indigo-dyed denim fabric and its application in composite films
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[7] Nanoengineered polymeric biomaterials for drug delivery system
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[8] Microwave-assisted synthesis of bifunctional magnetic solid acid for hydrolyzing cellulose to prepare nanocellulose
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[9] The current status of the enzyme-mediated isolation and functionalization of nanocelluloses: production, properties, techno-economics, and opportunities
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[10] Valorização dos resíduos da colheita de milho através da produção de nanocelulose
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[11] Síntese e caracterização de nanocelulose a partir da folha de abacaxi (ananás comosus (L) merril) cv vitória
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[12] Drying and redispersion of plant cellulose nanofibers for industrial applications: a review
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[13] Wearable System for Real-Time Sensing of Biomarkers in Human Sweat
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[14] ПОЛУЧЕНИЕ ПОРОШКОВОЙ И НАНОЦЕЛЛЮЛОЗЫ ИЗ ХЛОПКА С ИСПОЛЬЗОВАНИЕМ ЭКСТРУЗИОННЫХ ТЕХНОЛОГИЙ
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[15] 21st Century Nanoscience–A Handbook: Design Strategies for Synthesis and Fabrication (Volume Two)
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[16] Methods of isolation of nanocellulose from wood: A review
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[17] Insights of Bacterial Cellulose: Bio and Nano‐Polymer Composites Toward Industrial Application
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[18] Engineered Cellulose Nanomaterial Systems for Biomass Upgrading Catalysis
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[19] Defibrillated Celluloses via Dual Twin-Screw Extrusion and Microwave Hydrothermal Treatment of Spent Pea Biomass
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[20] Cellulose and Nanocellulose Derivatives from Lignocellulosic Biomass in Nanocomposite Applications
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[21] Advances in Biomaterials for Flexible Electronics and Optics.
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[22] Hybrid nanocomposites: fundamentals, synthesis, and applications
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[23] Early-Stage Assessment and Risk Analysis for Investments in the Bio-Based Industry
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[24] Isolation of Nanocellulose from Cotton Cellulose and Computer Modeling of Its Structure
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[25] Nanocellulose fabrication from Oryza sativa L. rice straw using combined treatment by hydrogen peroxide and dilute sulfuric acid solution
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[26] Comparative analysis of methods for producing nanocellulose from wheat straw and bran, with co-extraction of valuable products
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[27] Insights of Bacterial Cellulose: Bio and Nano-Polymer Composites Toward Industrial Application
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[28] Characterization of Agricultural and Food Processing Residues for Potential Rubber Filler Applications
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[29] Evaluation of an environmental profile comparison for nanocellulose production and supply chain by applying different life cycle assessment methods
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[30] Extraction of Cellulose Nanofibers and Their Eco-friendly Polymer Composites
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[31] Nanocellulose as Polymer Composite Reinforcement Material
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[32] Processing nanocellulose to bulk materials: a review
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[33] A Review: On Smart Materials Based on Some Polysaccharides; within the Contextual Bigger Data, Insiders,“Improvisation” and Said Artificial Intelligence …
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[34] Nature‐derived fibrous nanomaterial toward biomedicine and environmental remediation: Today's state and future prospects
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[35] Nanocellulose for Sensing Applications
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[36] Nanocellulose for oil and gas field drilling and cementing applications
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[37] Variation of the milling conditions in the obtaining of nanocellulose from the paper sludge
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[38] Early-stage Assessment and Risk Analysis for Investments in the Bio-based Industry.
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[39] Progress of novel techniques for lightweight automobile applications through innovative eco-friendly composite materials: A review
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[40] Catalytic conversion of microcrystalline cellulose to nanocellulose using iron oxide catalysts
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[41] Nanocrystalline cellulose as reinforcement for polymeric matrix nanocomposites and its potential applications: A review
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[42] Nanocellulose in green food packaging
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[43] CHEMISTRY CONCEPTS IN NANOCELLULOSE ISOLATION AND ITS POTENTIAL FOR GREEN CHEMISTRY LEARNING
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[44] Grafted Nanocellulose as an Advanced Smart Biopolymer
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[45] Importance of Agricultural and Industrial Waste in the Field of Nanocellulose and Recent Industrial Developments of Wood Based Nanocellulose: A Review
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[46] Homogenous and transparent nanocellulosic films from carrot
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[47] Sources of Glass Transition Temperature Variation in Poly (methyl methacrylate)/Cellulose Composites
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[48] Promising Sensing Platforms Based on Nanocellulose
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[49] Flexible spray coating process for smooth nanocellulose film production
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[50] Influence of Hydrophobicity of Acetylated Nanocellulose on the Mechanical Performance of Nitrile Butadiene Rubber (NBR) Composites
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[51] Paving the High-Way to Sustainable, Value Adding Open-Innovation Integrating Bigger-Data Challenges: Three Examples from Bio-Ingredients to Robust …
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[52] Biocomposites with increased dielectric constant based on Chitosan and nitrile-modified cellulose nanocrystals
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[53] Cellulose-Based Hydrogels for Medical/Pharmaceutical Applications
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[54] Open-Innovation in the Electrical and Electronic Industries: Engineered Bio-Fluid Compositions Are Paving the Way, and Testing Therewith
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[55] Mechanical properties of polyamide 11 reinforced with cellulose nanofibres from Triodia pungens
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[56] Production of Cellulose Nanocrystals at InnoTech Alberta
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[57] Preparation and Application of Cellulose Nano Whiskers (CNWs) in Engineered Cementitious Composites
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[58] MORPHOLOGICAL, PHYSICAL AND THERMAL CHARACTERIZATION OF MICROFIBRILLATED CELLULOSE
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[59] Nanocrystalline Cellulose: Production and Applications
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[60] Isolation of Cellulosic Nanoparticles from Coir Fibre for the Preparation of Natural Rubber Composites
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[61] Nanocellulose‐Based Composites in Biomedical Applications
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[62] Amine functionalization of cellulose nanocrystals for acid–base organocatalysis: surface chemistry, cross-linking, and solvent effects
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[63] Nanotechnology and the Futurist Green Polymer, Nanocellulose
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[64] Introdução à eletrônica integrada em celulose: Utilizando compósitos de celulose bacteriana eo polímero PEDOT
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[65] Carbon dioxide diffusion at different relative humidity through coating of cellulose nanocrystals for food packaging applications
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[66] Open nanofluidic films with rapid transport and no analyte exchange for ultra-low sample volumes
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[67] Nanocelluloses From Sugarcane Biomass
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[68] Nanocomposites based on renewable thermoplastic polyurethane and chemically modified cellulose nanocrystals with improved mechanical properties
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[69] Diseño de electrodos híbridos de polianilina y nanocelulosa para dispositivos electrónicos de alto rendimiento
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[70] Development and optimisation of a process for cellulose nanoparticle production from waste paper sludge with enzymatic hydrolysis as an integral part
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[71] Open Nanofluidic Films with Rapid Transport and No Analyte Loss for Ultra-Low Sample Volumes
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[72] Cellulose acetate and silver particles composite synthesis to antimicrobial applications
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[73] Obtenção de compósito com matriz de acetato de celulose e partículas de prata para aplicações antimicrobianas
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[74] Nanoteknoloji ve Geleceğin Çevreci Polimeri Nanoselüloz
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[75] Structure-Property Relationships in Cellulose-Based Hydrogels
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[76] Nanocellulose as a natural source for groundbreaking applications in materials science: Today's state
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[77] A Nano-Ink for gel pens based on scalable CNC preparation
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[78] Nanocellulose: Types, Sythesis and Applications
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[79] ПОЛУЧЕНИЕ НАНОЦЕЛЛЮЛОЗЫ ИЗ НЕДРЕВЕСНОГО РАСТИТЕЛЬНОГО СЫРЬЯ
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[80] An Overview of Bacterial Cellulose Applications
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[81] Advanced green composites
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[82] Structure–property relationships in cellulose-based hydrogels
2018
[83] Improved redispersibility of cellulose nanofibrils in water using maltodextrin as a green, easily removable and non-toxic additive
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[84] Nanocellulose and Sustainability: Production, Properties, Applications, and Case Studies
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[85] Predicting the environmental impact of a future nanocellulose production at industrial scale: Application of the life cycle assessment scale-up framework
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[86] Ionizing radiation processing and its potential in advancing biorefining and nanocellulose composite materials manufacturing
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[87] Poly (vinyl alcohol) as a capping agent in oven dried cellulose nanofibrils
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[88] CARACTERIZAÇÃO MORFOLÓGICA, FÍSICA E TÉRMICA DE CELULOSES MICROFIBRILADAS
2018
[89] Formation of nanocrystalline cellulose by using task specific ionic liquids/Nurul Atikah Mohd Iskak
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[90] Cellulosic-crystals as a fumed-silica substitute in vacuum insulated panel technology used in building construction and retrofit applications
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[91] Development and material properties of poly (lactic acid)/poly (3‐hydroxybutyrate‐co− 3‐hydroxyvalerate)‐based nanocrystalline cellulose nanocomposites
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[92] Preparation, properties and future perspectives of nanocrystals from agro-industrial residues: a review of recent research
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[93] A novel approach of developing micro crystalline cellulose reinforced cementitious composites with enhanced microstructure and mechanical performance
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[94] Cellulosic Biocomposites: Potential Materials for Future
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[95] Desenvolvimento de compósitos a base de nanocelulose impregnada em nanopartículas de prata visando sua aplicação em biossensores eletroquímicos
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[96] Methods for Extraction of Nanocellulose from Various Sources
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[97] Investigation of Nanofibrillated Cellulose for Hydrophobic Packaging Material: Examining Alternatives to Solvent Exchange and Lyophilization
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[98] Recent Advances in Green Sustainable Nanocellulosic Fiber: An Overview
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[99] The Hy-MASS concept: hydrothermal microwave assisted selective scissoring of cellulose for in situ production of (meso) porous nanocellulose fibrils and crystals
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[100] Conversion Economics of Forest Biomaterials: Risk and Financial Analysis of CNC Manufacturing
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[101] Towards greener and more sustainable cellulose-based hand sanitizer products
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[102] Nanocellulose as a template for the production of advanced nanostructured material
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[103] Enzymatyczne metody otrzymywania nanowłókien celulozowych.
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[104] Update on bio-refining and nanocellulose composite materials manufacturing
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[105] Manufacturing of nanocrystalline cellulose
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[106] Nanomaterials: certain aspects of application, risk assessment and risk communication
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[107] Cellulose micro‐and nanofibrils (CMNF) manufacturing‐financial and risk assessment
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[108] Renewable Materials
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[110] Green hybrid composites from cellulose nanocrystal
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[111] Microstructures of Nanocellulose and Reinforcement in Nitrile Butadiene Rubber (NBR) Composites
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[112] Review on Nanocellulose Polymer Nanocomposites
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[113] Energy efficient production of nano-fibrillated cellulose (NFC) From cotton linters by tri-disc refining and its characterization
2017
[114] Application of nanocrystalline cellulose: Processing and biomedical applications
2017
[115] Izolacija celuloznih nanokristalov z uporabo različnih kislin
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[116] Trends and Prospects of Microfibrillated Cellulose in Bio-industries
2017
[117] 1Universiti Teknologi PETRONAS, Perak, Malaysia 2Sultan Qaboos University, Muscat, Sultanate of Oman 3Eritrea Institute of Technology, Asmara, Eritrea
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[118] Testing Methods for Composite Materials
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[119] Comparative Assessment of Methods for Producing Cellulose I Nanocrystals from Cellulosic Sources
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[120] Preparation, characterization, and applications of nanomaterials (Cellulose, Lignin, and Silica) from renewable (lignocellulosic) resources
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[121] The Hy-MASS concept: hydrothermal microwave assisted selective scissoring of cellulose for in situ production of (meso) porous nanocellulose fibrils and …
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[122] Microstructure and mechanical properties of nanomaterial reinforced cementitious composites
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[123] ARAMIDS:'disruptive', open and continuous innovation
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[124] THE EFFECT OF MICROFIBRILLATED CELLULOSE ON THE STRENGTH AND LIGHT SCATTERING OF HIGHLY FILLED PAPERS
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[125] Recent Strategies for the Development of Biosourced-Monomers, Oligomers and Polymers-Based Materials: A Review with an Innovation and a Bigger …
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[128] A Review of Nanocellulose Polymer Composites Characteristics and Challenges
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[129] Recent Strategies for the Development of Biosourced-Monomers, Oligomers and Polymers-Based Materials: A Review with an Innovation and a Bigger Data Focus
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[130] Mechanical Pulp-Based Nanocellulose
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[131] НАНОКОМПОЗИЦИОННЫЕ МАТЕРИАЛЫ НА ОСНОВЕ НАНОЦЕЛЛЮЛОЗЫ
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[132] Nanocellulose: a benefit for green food packaging
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[133] Progress on nanocrystalline cellulose biocomposites
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[134] Biomedical Applications of Nanocellulose
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[135] American Process: Production of Low Cost Nanocellulose for Renewable, Advanced Materials Applications
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[136] Influence of the maturation time on the physico-chemical properties of nanocellulose and associated constituents isolated from pseudostems of banana plant cv Valery
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[137] Síntese e caracterização de nanocompósitos poliméricos reforçados com whiskers de celulose da fibra de licuri
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[138] Chemical Recovery in TEMPO Oxidation
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[139] Hairy cellulose nanocrystalloids: a novel class of nanocellulose
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[140] Nanocomposites Based on Cellulose, Hemicelluloses, and Lignin
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[141] Properties and Utilization of Plant Fibers and Nanocellulose for Thermoplastic Composites
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[142] Synthesis, properties, and fungal degradation of castor-oil-based polyurethane composites with different cellulose contents
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[143] Hydroxypropyl cellulose/rice straw oxidized cellulose nanocrystals nanocomposites and their use in paper coating
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[144] Nanocellulose induces cellulase production in Trichoderma reesei
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[145] Mechanical Pulp-Based Nanocellulose: Processing and applications relating to paper and paperboard, composite films, and foams
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[146] Electrospun Fibers Based on Biopolymers
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[147] Introduction to Lignocellulose-based Products
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[148] Síntesis de nanopartículas derivadas de biopolímeros extraídos de biomasa por métodos térmicos
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[149] The potential of nanocellulose in the packaging field: a review
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[150] Dispersion of Cellulose Nanocrystals in a Water-Methanol Co-solvent System
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[151] Practical Applications of Collagen-based Scaffolds for Use in Tissue Engineering and Regeneration
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[152] Energy Efficient Manufacturing of Nanocellulose by Chemo-and Bio-Mechanical Processes: A Review
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[153] Basic effects of pulp refining on fibre properties-A review
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[154] Extraction of cellulose nanocrystals from plant sources for application as reinforcing agent in polymers
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[155] PRÓ-REITORIA DE PESQUISA E PÓS-GRADUAÇÃO
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[156] Modification of regenerated cellulose membrane based on thiol dendrimer
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[157] Life cycle assessment of cellulose nanofibrils production by mechanical treatment and two different pretreatment processes
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[158] A Mini Review on Plant-based Nanocellulose: Production, Sources, Modifications and Its Potential in Drug Delivery Applications
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[159] Cellulose Nanofibers: Synthesis, Properties and Applications
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[160] Life cycle assessment of a new technology to extract, functionalize and orient cellulose nanofibers from food waste
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[161] Potential Applications of Milk Fractions and Valorization of Dairy By-Products: A Review of the State-of-the-Art Available Data, Outlining the Innovation Potential from a Bigger Data Standpoint
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[162] Cellulose Nanocrystals: Dispersion in Co-Solvent Systems and Effects on Electrospun Polyvinylpyrrolidone Fiber Mats
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[163] Nanocellulose-Soybean Oil Composites via UV-Initiated Free Radical Polymerization
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[164] Effect of Drying Pretreatment on the Acetylation of Nanofibrillated Cellulose
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[165] Processing of wood-based microfibrillated cellulose and nanofibrillated cellulose, and applications relating to papermaking: a review
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[166] Fluting medium strengthened by periodate–chlorite oxidized nanofibrillated celluloses
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[167] Nanofibras celulósicas aplicadas com aspersão para obtenção de embalagens.
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