Preparation of 1 wt% (2,2,6,6-Tetramethylpiperidin-1-yl) oxyl (TEMPO)-mediated Oxidized Cellulose Nanofiber (TOCN) Sol
4:01
Preparation of TOCN-TiO2 and TOCN-surface-oxidized Carbon Fiber (SOCF) Mixed Sols
4:59
Microhoneycomb Monolith (MHM) Preparation from 1 Wt% TOCN Sol (MHM-TOCN) or TOCN Mixed Sols (MHM-TOCN/SBR, MHM-TOCN/TiO2, MHM-TOCN/SOCF)
6:54
Results: Morphologies of the MHM-TOCN, MHM-TOCN/SBR, MHM-TOCN/TiO2, and MHM-TOCN/SOCF
8:39
Conclusion
Transcript
This method can help answer key questions about achieving functional MHM materials for applications such as filtration, catalyst supporting, flow type batteries, sensors and bio-scaffolds. The main advantage of this technique is that it utilizes t
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Qui, presentiamo un protocollo generale per preparare una varietà di microhoneycomb monoliti (MHMs) in cui il liquido può passare attraverso con una caduta di pressione estremamente bassa. MHMs ottenuti dovrebbero essere utilizzati come filtri, supporti di catalizzatore, flusso-tipo di elettrodi, sensori e ponteggi per biomateriali.