Emerging challenges in the thermal management of cellulose nanofibril-based supercapacitors, lithium-ion batteries and solar cells: A review

Zhang, Yuehua; Hao, Ningke; Lin, Xuejiao; Nie, Shuangxi

doi:10.1016/j.carbpol.2020.115888

Cited by 137 publications

(63 citation statements)

References 183 publications

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“…For these reasons, a pre-treatment of the fibrous material is usually performed in order to decrease the size of the cellulose fibers and to ease the fibrillation and the process of nanocellulose preparation. The method of NC production by combining mechanical, chemical or biological pretreatment with homogenization treatment can not only reduce energy consumption, but also obtain NC with controllable size [75].…”

Section: Preparation Of Nanocellulosementioning

confidence: 99%

Preparation, Properties and Use of Nanocellulose from Non-Wood Plant Materials

Барбаш¹,

Yaschenko²

2021

Novel Nanomaterials

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The chapter describes the chemical structure and hierarchical organization of cellulose fibers, characteristics of non-wood plant raw materials (NWPM), and methods for preparing pulp and nanocellulose (NC). NWPM have the necessary reserves and properties to make up for a possible shortage of wood fiber for pulp production. The methodology for evaluating the efficiency of the delignification processes of plant raw materials is presented. A two-stage technology for producing pulp for the preparation of NC by environmentally friendly organosolvent methods of NWPM delignification is proposed. Methods for preparing nanocellulose are described. The technological parameters of the extraction of NC from pulp are discussed. The influence of NC on the properties of composite materials is analyzed. Areas of use for NC from NWPM are shown.

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Section: Preparation Of Nanocellulosementioning

confidence: 99%

Preparation, Properties and Use of Nanocellulose from Non-Wood Plant Materials

Барбаш¹,

Yaschenko²

2021

Novel Nanomaterials

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“…According to review reported by Zhang, et al, [90], the separator of LIBs synthesized from CNFs can meaningfully decreases short-circuit found inside the battery. The CNF film has uniform porous structure that makes its thermal stability and wettability considerably improved than PP/PE/PP composite.…”

Section: Lithium-ion Batteriesmentioning

confidence: 98%

“…Relative to plastic substrates, nanopaper shows advanced thermal stability and coefficient of thermal expansion (28.5 ppm/K). CNFs link with each other and simply produce porous structures that enable ion and electron transportation [90]. This material has exceptional geometries and they are extremely environmentally friendly and cost effective [91] and shows tremendous flexibilities and mechanical stabilities and are implemented as structural supports for electronic devices [92].…”

Section: Energymentioning

confidence: 99%

Preparation and Application of Nanocellulose (NC): Review

Kara

2020

Adv. Mater. Lett.

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“…FSCs have commanded a lot of concentration as one of the most important energy storage research focuses owing to their extraordinary capacitive behaviour, higher power density, higher rate capability, and higher cyclic stability in comparison with batteries and higher E d compared to the traditional capacitors [476], which provide them with a vast range of potential to be utilized in various applications. Each category of SC has its own specific features and applications, such as in portable/wearable electronic devices as well as in computer and mobile phones [2,477], high power sources for heavy lift trucks or cranes [478,479], the self-powered SCs in medical applications (e.g., flexible artificial skin, artificial intelligence, portable or implantable medical/biomedical devices) [480,481], solar applications [482][483][484]. There are several SC companies such as ELTON (Russia), Nesscap (Korea), CAP-XX (Australia), and Nippon Chemicon (Japan), which are developing various kind of SCs for different applications [485].…”

Section: Applications and Future Perspectivesmentioning

confidence: 99%

Electrode Materials for Supercapacitors: A Review of Recent Advances

2020

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The advanced electrochemical properties, such as high energy density, fast charge–discharge rates, excellent cyclic stability, and specific capacitance, make supercapacitor a fascinating electronic device. During recent decades, a significant amount of research has been dedicated to enhancing the electrochemical performance of the supercapacitors through the development of novel electrode materials. In addition to highlighting the charge storage mechanism of the three main categories of supercapacitors, including the electric double-layer capacitors (EDLCs), pseudocapacitors, and the hybrid supercapacitors, this review describes the insights of the recent electrode materials (including, carbon-based materials, metal oxide/hydroxide-based materials, and conducting polymer-based materials, 2D materials). The nanocomposites offer larger SSA, shorter ion/electron diffusion paths, thus improving the specific capacitance of supercapacitors (SCs). Besides, the incorporation of the redox-active small molecules and bio-derived functional groups displayed a significant effect on the electrochemical properties of electrode materials. These advanced properties provide a vast range of potential for the electrode materials to be utilized in different applications such as in wearable/portable/electronic devices such as all-solid-state supercapacitors, transparent/flexible supercapacitors, and asymmetric hybrid supercapacitors.

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Emerging challenges in the thermal management of cellulose nanofibril-based supercapacitors, lithium-ion batteries and solar cells: A review

Cited by 137 publications

References 183 publications

Preparation, Properties and Use of Nanocellulose from Non-Wood Plant Materials

Preparation, Properties and Use of Nanocellulose from Non-Wood Plant Materials

Preparation and Application of Nanocellulose (NC): Review

Electrode Materials for Supercapacitors: A Review of Recent Advances

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