Titlebook: Emerging Nanotechnologies in Nanocellulose; Liangbing Hu,Feng Jiang,Chaoji Chen Book 2023 The Editor(s) (if applicable) and The Author(s),

invulnerable

Energy Storage Applications, be used in the manufacturing of such devices. It is demonstrated that the use of nanocellulose facilitates the development of sustainable, versatile, and inexpensive electrochemical energy storage devices since nanocellulose can be used in the manufacturing of electrode materials, separators, and c

irreducible

inveigh

Nanocellulose for Water Treatment Applications,ater quality, is not only a cornerstone for human society and almost all industrial sectors but also crucial for sustainable development. Compared to energy-intensive thermal processing or petrochemical-derived materials that are currently deployed for water treatment, recent technological developme

GROUP

Engineering of Nanocellulose Thin Films for Triboelectric Nanogenerator Development,effective. The nanometer-sized cellulose, e.g. cellulose nanofibrils (CNFs) provides wide processing possibilities and greater application potential as a functional soft material building block. This chapter reviews a series of recent research from our group regarding the functionalization, fabricat

nominal

Biomedical Applications of Nanocellulose,well as produced by some microorganisms, algae, and animals, and synthetized in vitro by the cell-free enzyme systems. Over the past few decades, nanocellulose is receiving tremendous attention for its applications in different areas owing to its easy availability, renewability, and unique structura

LVAD360

返老還童

Light Management of Nanocellulose Films,ransmission haze (light scattering), vivid structural coloration, circularly polarization, and bright whiteness) are highlighted. After that, we demonstrate their potential uses in various value-added photonic fields (e.g., optoelectronics and smart photonic applications) as photonic materials. Fina

少量

Cellulose-Based Printed Power Sources,als and systems, which overcome the limitations of conventional synthetic materials. Notably, to obtain both form factor diversity and electrochemical reliability of printed power sources, cellulose has been extensively investigated as a promising building element because of its compatibility with t

現(xiàn)暈光