![]() ![]() CNF-stabilized O/W Pickering emulsion showed excellent colloidal stability compared with un-oxidized cellulose by Turbiscan stability analysis. The production of carboxyl groups of CNFs were confirmed by FT-IR and 13C solid-NMR. In this paper, cellulose nanofibrils (CNFs) with oxidation degrees (DOs) of 52.8% and 92.7% (DO50 and DO90) were obtained from TEMPO-mediate oxidation for microcrystalline cellulose (MC). The application of celluloses as oil-in-water Pickering emulsifiers is still quite limited. Our results suggest that the oxidation modification not only improves their emulsification activity but also promotes their application in oil digestion inhibition, providing inspiration for designing and developing low-calorie food products.Ībstract = "Celluloses are renewable and biodegradable natural resources. Most importantly, in vitro fatty acid release kinetics under SIF showed that CNFs have strong inhibitory lipid digestion behavior. Additionally, CNF-stabilized Pickering emulsions showed stable colloidal properties in simulated intestinal fluid (SIF). doi: 10.1007/s10574-3.Celluloses are renewable and biodegradable natural resources. Recent developments and prospective food-related applications of cellulose nanocrystals: A review. A Comprehensive Review on Emulsions and Emulsion Stability in Chemical and Energy Industries. An insight into nanocellulose as soft condensed matter: Challenge and future prospective toward environmental sustainability. Tan K.W., Heo S.K., Foo M.L., Chew I.M.L., Yoo C.K. Nanocellulose-stabilized Pickering emulsions and their applications. Gelatin molecular structures affect behaviors of fish oil-loaded traditional and Pickering emulsions. Pickering emulsions molecular dynamics simulation nanocellulose.ĭing M., Zhang T., Zhang H., Tao N., Wang X., Zhong J. The outcome of this work would be helpful to provide an important perspective for the future design and development of nanocellulose-based emulsion products, which cater for food, cosmeceutical, and pharmaceutical industries. It was also observed that the high bead order was always coupled with a high volume of phase separation activities, through a coarse-grained model within 20,000 time steps. This work has successfully quantified the Pickering stabilization mechanism profiles by nanocellulose, and the phenomenon could be visualized in three stages, namely the initial homogenous phase, rapid formation of micelles and coalescence, and lastly the thermodynamic equilibrium of the system. To realize its potential, nanocellulose, an amphiphilic biopolymer with the presence of rich -OH and -CH structural groups, was investigated via molecular dynamics simulation to reveal its full potential as Pickering emulsion stabilizer at the molecular level. The development cost of new materials can be significantly reduced by utilizing molecular simulation technology in the design of nanostructured materials. However, research on the design and operation of integrated nanomaterials, along with energy supply, monitoring, and control infrastructure, has seriously lagged. As the complexity of the system evolved, the timescale of project development has increased exponentially. It is crucial for more sustainable valorization of resources, for instance, nanocellulose, to address the core challenges in environmental sustainability. While the economy is rapidly expanding in most emerging countries, issues coupled with a higher population has created foreseeable tension among food, water, and energy. ![]()
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