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
Transkript
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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Here, we present a general protocol to prepare a variety of microhoneycomb monoliths (MHMs) in which fluid can pass through with an extremely low pressure drop. MHMs obtained are expected to be used as filters, catalyst supports, flow-type electrodes, sensors and scaffolds for biomaterials.