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Results 1 to 25 of 49

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Formation of Peptide Nanospheres and Nanofibrils by Metal CoordinationTSURKAN, Mikhail V; OGAWA, Michael Y.Biomacromolecules. 2007, Vol 8, Num 12, pp 3908-3913, issn 1525-7797, 6 p.Article

Preparation and characterization of TEMPO-oxidized cellulose nanofibril films with free carboxyl groupsFUJISAWA, Shuji; OKITA, Yusuke; FUKUZUMI, Hayaka et al.Carbohydrate polymers. 2011, Vol 84, Num 1, pp 579-583, issn 0144-8617, 5 p.Article

Self-assembled films of cellulose nanofibrils and poly(o-ethoxyaniline)MEDEIROS, Eliton S; MATTOSO, Luiz H. C; BERNARDES-FILHO, Rubens et al.Colloid and polymer science (Print). 2008, Vol 286, Num 11, pp 1265-1272, issn 0303-402X, 8 p.Article

Synthesis of polyaniline nanofibrils using an in situ seeding techniqueTHANPITCHA, Tuspon; SIRIVAT, Anuvat; JAMIESON, Alexander M et al.Synthetic metals. 2008, Vol 158, Num 17-18, pp 695-703, issn 0379-6779, 9 p.Article

Fabrication and optical characterization of poly(2,5-di-n-butoxyphenylene) nanofibril arraysBOZHANG YU; YUAN GAO; HULIN LI et al.Journal of applied polymer science. 2004, Vol 91, Num 1, pp 425-430, issn 0021-8995, 6 p.Article

Recycled chitosan nanofibril as an effective Cu(II), Pb(II) and Cd(II) ionic chelating agent: Adsorption and desorption performanceDAGANG LIU; ZEHUI LI; YI ZHU et al.Carbohydrate polymers. 2014, Vol 111, pp 469-476, issn 0144-8617, 8 p.Article

TEMPO-oxidized cellulose nanofibrils prepared from various plant holocelluloses : Renewable Nanoreinforcements, Polymers and CompositesKURAMAE, Ryota; SAITO, Tsuguyuki; ISOGAI, Akira et al.Reactive & functional polymers. 2014, Vol 85, pp 126-133, issn 1381-5148, 8 p.Article

Fibrinogen Nanofibril Growth and Self-Assembly on Au (1,1,1) Surface in the Absence of ThrombinGUOJUN CHEN; NANTING NI; BINGHE WANG et al.ChemPhysChem (Print). 2010, Vol 11, Num 3, pp 565-568, issn 1439-4235, 4 p.Article

Biomimetic Mineralization Induced by Fibrils of Polymers Derived from a Bile AcidXU ZHANG; ZHANYONG LI; ZHU, X. X et al.Biomacromolecules. 2008, Vol 9, Num 9, pp 2309-2314, issn 1525-7797, 6 p.Article

Copolymerization of pyrrole and aniline nanofibrils and field emission property of the resulting copolymerLI, X. H; LIU, W. M; WANG, C. W et al.Journal of materials science letters. 2003, Vol 22, Num 21, pp 1519-1521, issn 0261-8028, 3 p.Article

Mechanical properties of carbon nanoparticle-reinforced elastomersFROGLEY, Mark D; RAVICH, Diana; WAGNER, H. Daniel et al.Composites science and technology. 2003, Vol 63, Num 11, pp 1647-1654, issn 0266-3538, 8 p.Article

Investigation of molecular and supermolecular structure in template-synthesized polypyrrole tubules and fibrilsMENON, V. P; LEI, J; MARTIN, C. R et al.Chemistry of materials. 1996, Vol 8, Num 9, pp 2382-2390, issn 0897-4756Article

Modification of Cellulose Nanofibrils with Luminescent Carbon DotsJUNKA, Karoliina; GUO, Jiaqi; FILPPONEN, Ilari et al.Biomacromolecules. 2014, Vol 15, Num 3, pp 876-881, issn 1525-7797, 6 p.Article

Chitin nanofibrils for rapid and efficient removal of metal ions from water systemDAGANG LIU; YI ZHU; ZEHUI LI et al.Carbohydrate polymers. 2013, Vol 98, Num 1, pp 483-489, issn 0144-8617, 7 p.Article

Thin Film of Lignocellulosic Nanofibrils with Different Chemical Composition for QCM-D StudyKUMAGAI, Akio; LEE, Seung-Hwan; ENDO, Takashi et al.Biomacromolecules. 2013, Vol 14, Num 7, pp 2420-2426, issn 1525-7797, 7 p.Article

TEMPO-mediated oxidation of β-chitin to prepare individual nanofibrilsYIMIN FAN; SAITO, Tsuguyuki; ISOGAI, Akira et al.Carbohydrate polymers. 2009, Vol 77, Num 4, pp 832-838, issn 0144-8617, 7 p.Article

Large deformation mechanical behavior of flexible nanofiber filled polymer nanocompositesDALMAS, Florent; CHAZEAU, Laurent; GAUTHIER, Catherine et al.Polymer (Guildford). 2006, Vol 47, Num 8, pp 2802-2812, issn 0032-3861, 11 p.Article

Electrochemical copolymerization of pyrrole and thiophene nanofibrils using template-synthesis methodXIAOHONG LI; MEI LU; HULIN LI et al.Journal of applied polymer science. 2002, Vol 86, Num 10, pp 2403-2407, issn 0021-8995Article

Evaluation of the effects of chitin nanofibrils on skin function using skin modelsITO, Ikuko; OSAKI, Tomohiro; MINAMI, Saburo et al.Carbohydrate polymers. 2014, Vol 101, pp 464-470, issn 0144-8617, 7 p.Article

Growth of Long Triisopropylsilylethynyl Pentacene (TIPS-PEN) Nanofibrils in a Polymer Thin Film During Spin-CoatingMINWOO PARK; YUHO MIN; LEE, Yu-Jeong et al.Macromolecular rapid communications. 2014, Vol 35, Num 6, pp 655-660, issn 1022-1336, 6 p.Article

Dispersible and Thermal Stable Nanofibrils Derived from Glycated Whey ProteinGANG LIU; QIXIN ZHONG.Biomacromolecules. 2013, Vol 14, Num 7, pp 2146-2153, issn 1525-7797, 8 p.Article

Effect of Calcium on the Morphology and Functionality of Whey Protein NanofibrilsLOVEDAY, Simon M; JIAHONG SU; ANANDHA RAO, M et al.Biomacromolecules. 2011, Vol 12, Num 10, pp 3780-3788, issn 1525-7797, 9 p.Article

Wood cellulose biocomposites with fibrous structures at micro- and nanoscaleSEHAQUI, Houssine; ALLAIS, Maël; QI ZHOU et al.Composites science and technology. 2011, Vol 71, Num 3, pp 382-387, issn 0266-3538, 6 p.Article

Highly Oriented Crystalline PE Nanofibrils Produced by Electric-Field-Induced Stretching of Electrospun Wet FibersYOSHIOKA, Taiyo; DERSCH, Roland; GREINER, Andreas et al.Macromolecular materials and engineering (Print). 2010, Vol 295, Num 12, pp 1082-1089, issn 1438-7492, 8 p.Article

Viscoelastic behavior and electrical properties of flexible nanofiber filled polymer nanocomposites. Influence of processing conditionsDALMAS, Florent; CAVAILLE, Jean-Yves; GAUTHIER, Catherine et al.Composites science and technology. 2007, Vol 67, Num 5, pp 829-839, issn 0266-3538, 11 p.Conference Paper

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