Category:Cellulose_derivativesNanocelluloseNanocelulosa%D9%86%D8%A7%D9%86%D9%88%D8%B3%D9%84%D9%88%D9%84%D8%B2NanoselluloosaNanocellulose%D7%A0%D7%A0%D7%95%D7%A6%D7%9C%D7%95%D7%9C%D7%95%D7%96%E0%A4%A8%E0%A5%88%E0%A4%A8%E0%A5%8B%E0%A4%B8%E0%A5%87%E0%A4%B2%E0%A5%81%E0%A4%B2%E0%A5%8B%E0%A4%B8Nanocellulosa%E3%83%8A%E3%83%8E%E3%82%BB%E3%83%AB%E3%83%AD%E3%83%BC%E3%82%B9Mikrofibrill%C3%A4r_cellulosaQ6964006
about
Impacts of chemical modification on the toxicity of diverse nanocellulose materials to developing zebrafishA critical review of the current knowledge regarding the biological impact of nanocelluloseFibrillar vs crystalline nanocellulose pulmonary epithelial cell responses: cytotoxicity or inflammation?Conversion of lignocellulosic biomass to nanocellulose: structure and chemical processOrthotropic Piezoelectricity in 2D NanocelluloseTowards biomimicking wood: fabricated free-standing films of Nanocellulose, Lignin, and a synthetic polycation.Hairy cellulose nanocrystalloids: a novel class of nanocellulose.Understanding nanocellulose chirality and structure-properties relationship at the single fibril level.1D and 2D NMR of nanocellulose in aqueous colloidal suspensions.Green process for chemical functionalization of nanocellulose with carboxylic acids.Characterisation and properties of homo- and heterogenously phosphorylated nanocellulose.A novel process for synthesis of spherical nanocellulose by controlled hydrolysis of microcrystalline cellulose using anaerobic microbial consortium.Cartilage Tissue Engineering by the 3D Bioprinting of iPS Cells in a Nanocellulose/Alginate Bioink.Nanocelluloses: a new family of nature-based materials.Effects of aromatic compounds on the production of bacterial nanocellulose by Gluconacetobacter xylinusHigh-capacity conductive nanocellulose paper sheets for electrochemically controlled extraction of DNA oligomers.Biopolymer nanocomposite films reinforced with nanocellulose whiskers.Aerogels with 3D ordered nanofiber skeletons of liquid-crystalline nanocellulose derivatives as tough and transparent insulators.Hard and transparent films formed by nanocellulose-TiO2 nanoparticle hybridsThe characteristics of bacterial nanocellulose gel releasing silk sericin for facial treatment.Laser-structured bacterial nanocellulose hydrogels support ingrowth and differentiation of chondrocytes and show potential as cartilage implants.Bi-functional biobased packing of the cassava starch, glycerol, licuri nanocellulose and red propolis.An investigation of Pseudomonas aeruginosa biofilm growth on novel nanocellulose fibre dressings.Luminescent Nanocellulose Platform: From Controlled Graft Block Copolymerization to Biomarker Sensing.Directional Freezing of Nanocellulose Dispersions Aligns the Rod-Like Particles and Produces Low-Density and Robust Particle Networks.Fabrication of a Functionalized Magnetic Bacterial Nanocellulose with Iron Oxide Nanoparticles.A review on chitosan-cellulose blends and nanocellulose reinforced chitosan biocomposites: Properties and their applications.Haemocompatibility and ion exchange capability of nanocellulose polypyrrole membranes intended for blood purification.pH-Triggered Molecular Alignment for Reproducible SERS Detection via an AuNP/Nanocellulose PlatformEngineering and Characterization of Bacterial Nanocellulose Films as Low Cost and Flexible Sensor Material.Using In situ Dynamic Cultures to Rapidly Biofabricate Fabric-Reinforced Composites of Chitosan/Bacterial Nanocellulose for Antibacterial Wound DressingsThe Effect of Mechanochemical Treatment of the Cellulose on Characteristics of Nanocellulose Films.Nanocellulose size regulates microalgal flocculation and lipid metabolism.Mechanical, Dielectric, and Spectroscopic Characteristics of "Micro/Nanocellulose + Oxide" CompositesNanocellulose patents trends: a comprehensive review on patents on cellulose nanocrystals, microfibrillated and bacterial cellulose.Nanocellulose electroconductive composites.Nanocellulose-based composites and bioactive agents for food packaging.Key advances in the chemical modification of nanocelluloses.A Mini Review on Plant-based Nanocellulose: Production, Sources, Modifications and Its Potential in Drug Delivery Applications.Characteristics of a free-standing film from banana pseudostem nanocellulose generated from TEMPO-mediated oxidation.
P921
Q26343230-26EC21C5-0D5C-4BC2-AE5B-D594C3CEB75AQ28076014-E900D33B-665A-4D24-82D4-751BD8870DD2Q28469440-B1319B50-4159-4AF3-A6E7-6DC43F8B0623Q28655785-BD63B9AA-E40E-44E1-B0FC-EADEB69FE132Q28822443-E43E457A-FE03-4829-B3CB-7928C1BF477FQ30381240-922095B1-FA36-4913-BDB5-31CF9632A9CBQ30390921-9B40F946-F6C0-420A-AB60-0EE942B11908Q30407276-DBA2D374-A5DC-464E-A2D6-3D43CE49C03DQ30829577-BCF14820-0C9C-49B1-BABC-1E3336D22E97Q30865261-2F232C15-5C25-4ED5-A6ED-C6AFEECC392BQ30928382-6FD89E74-25D7-48E4-8535-0695637C0696Q31107965-4958C36D-610F-4D37-A851-5E2AEEEE6036Q33674174-8F809189-BB91-45D1-9197-A9F11863652EQ33906843-78F1A2CB-D02A-4D27-8778-C1100710AE12Q34018963-AAEDEB29-ED2B-4E76-9455-717DC3F065C9Q34110869-E2D0371D-89A4-4AD0-81E0-A6EC3B8E0A23Q34241947-5008C657-B6DF-4CAD-9350-5FA39AFE65AFQ34427449-448D9690-7082-40E3-8B85-40E5B69B15F9Q34437593-36ABFCE6-6508-422F-BFB4-83C52E203993Q34694213-9B4DF95F-A96D-4F7C-BD94-1F8FCE92D86CQ35066137-862B9A9F-2CB3-4357-AB61-0FABD9A70C50Q35407000-00B1C976-C9E1-4EAF-8306-84BECEAEAE09Q35873546-8DF08C0B-302B-4D26-8967-32CA61B149E1Q35898995-A3C69679-C238-4B4C-823D-93185120669DQ35987491-92417993-3721-4616-8E53-95B7890F79A7Q36048265-5EED8620-848A-4631-9B17-391C09F99D0DQ36054953-23F43489-F2CA-42F8-95F7-3636D378DCBEQ36065449-BFDAEF86-4B82-46F7-AC56-884A46E1E879Q36364083-35907874-71AD-47A9-AC43-5D0AB81DDE75Q36375423-3FC2FD96-66A0-40AF-8B09-466D19D6F03EQ36650674-87D55DEE-379A-4EFC-B0E1-0DDA34F7DF81Q37266152-5AC56765-6651-4547-980C-8CF97919D711Q37379446-098FE9CA-83B4-4EF8-9DE8-6683536EE9B8Q37640357-034E748C-8A5D-41D4-A44C-3BD9F9643C12Q38022749-6EA39AED-765E-4186-9968-A76CBD86F6F2Q38091314-02AB78C7-A364-4545-B7E4-99277E984A6FQ38159749-30D58305-EECD-43CF-B044-82FA1A6DA79DQ38169490-3D11CEF0-01CC-4D43-8EB4-178A4FB1F0DAQ38422693-EBC3E8F9-AFF2-4D11-A02D-0B3C6C00D55EQ38618271-C6BD3050-B23A-4539-807D-9589A821F6FC
P921
description
Nanostructure de cellulose
@fr
material composed of nanosized cellulose fibrils
@en
materiale a base di cellulosa su scala nanometrica
@it
name
Mikrofibrillär cellulosa
@sv
Nano Selulosa
@id
Nanocellulosa
@it
Nanocellulose
@en
Nanocellulose
@fr
Nanocelulosa
@es
Nanoselluloosa
@fi
наноцелюлоза
@ru
ננוצלולוז
@he
نانوسلولز
@fa
type
label
Mikrofibrillär cellulosa
@sv
Nano Selulosa
@id
Nanocellulosa
@it
Nanocellulose
@en
Nanocellulose
@fr
Nanocelulosa
@es
Nanoselluloosa
@fi
наноцелюлоза
@ru
ננוצלולוז
@he
نانوسلولز
@fa
prefLabel
Mikrofibrillär cellulosa
@sv
Nano Selulosa
@id
Nanocellulosa
@it
Nanocellulose
@en
Nanocellulose
@fr
Nanocelulosa
@es
Nanoselluloosa
@fi
наноцелюлоза
@ru
ננוצלולוז
@he
نانوسلولز
@fa
P6366
P646
P3417
Nanocellulose
P373
Cellulose derivatives
P6366
2777968448
P646
/m/0bx__yf