The gorgeous transformation of paper: from cellulose paper to inorganic paper to 2D paper materials with multifunctional properties

Dai, Xin; Guo, Zhiguang

doi:10.1039/d1ta08410k

Cited by 26 publications

(8 citation statements)

References 274 publications

(458 reference statements)

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“…Paper is another major aggregate of cellulose that has played an irreplaceable role in the development of human civilization for thousands of years [108]. The same molecular structure interprets that the paper can be carbonized as perfectly as cotton fiber fabric to form paper-derived carbons for sensor applications.…”

Section: Reviewsmentioning

confidence: 98%

Recent application progress and key challenges of biomass-derived carbons in resistive strain/pressure sensor

Shi

Das

2023

Sci. China Mater.

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Resistive strain/pressure sensors have attracted intensive attention due to their irreplaceable role in the fields of motor behavior monitoring, human health diagnosis, and human machine interface. Notably, the material and structural design have significant impacts on the performance of resistive strain/pressure sensors. Biomass-derived carbons (BDCs) are considered as popular candidates for realizing the fabrication of resistive strain/pressure sensors because of their excellent properties such as abundant sources, diverse structures, and satisfactory electrical conductivity. This review presents the recent progress of BDCs in the field of resistive strain/pressure sensors and their key challenges. First, the classification methods, evaluation criteria and sensing mechanisms of previously reported resistive strain/pressure sensors are systematically outlined and discussed. Subsequently, the preparation of BDCs with different macrostructures, including one-dimensional (1D), 2D, and 3D structures, and their recent progress in the field of resistive strain/pressure sensors are summarized. Next, the respective advantages of BDCs with different macroscopic structures in the field of resistive strain/pressure sensors are carefully analyzed, and the relationship between different structures and the comprehensive sensing performances of devices is discussed. Finally, the future prospects and major challenges are proposed for BDC-based resistive strain/pressure sensors, and some key future research directions are given.

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Section: Reviewsmentioning

confidence: 98%

Recent application progress and key challenges of biomass-derived carbons in resistive strain/pressure sensor

Shi

Das

2023

Sci. China Mater.

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“…Cellulose paper, showing some advantages of easy accessibility, high flexibility, good hydrophilicity, and environmental friendliness, is regarded as a portable and flexible substrate material. 111 Thus, cellulose paper was also applied in AuNC composites, 112 and many measures were taken to increase the portability and practicality with the premise of high sensitivity, such as the enrichment of heavy metal ions, the ratiometric fluorescence, and the analysis of smartphones. To enrich heavy metal ions, a syringe injection method is proposed.…”

Section: Application Of Aunc Compositesmentioning

confidence: 99%

Gold nanocluster composites: preparation strategies, optical and catalytic properties, and applications

Zhu

Weng

et al. 2022

J. Mater. Chem. C

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“…As non-renewable resources, like fossil fuels, gradually run out, new forms of energy, like solar and wind power, have continuously produced and advanced toward electrification and a series of fire safety issues have emerged. Therefore, various fields have put forward higher requirements for the flame retardancy of materials in their thermal protection systems. − The flame-retardant paper has great potential in the field of power electronics as a result of its excellent processability, flexibility, adhesion, and excellent flame retardancy. − However, traditional cellulose-based flame-retardant paper requires the addition of a large number of flame retardants, which has an adverse impact on the environment and the mechanical properties of the materials. − In recent years, inorganic fibers have been widely used in the field of flame retardancy as a result of their inherent flame retardancy, but their paper strength is relatively low. , Therefore, it is necessary to develop green and environmentally friendly inorganic fiber composite paper with excellent mechanical properties, flame retardancy, and thermal stability.…”

Section: Introductionmentioning

confidence: 99%

Nacre-Inspired Aramid Nanofibers/Basalt Fibers Composite Paper with Excellent Flame Retardance and Thermal Stability by Constructing an Organic–Inorganic Fiber Alternating Layered Structure

Song,

Wang,

et al. 2024

ACS Appl. Mater. Interfaces

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The flame-retardant paper has gradually evolved into a necessary material in various industries as a result of the rising importance of fire safety, energy efficiency, and environmental preservation. Traditional cellulose paper requires the addition of a large amount of flame retardants to achieve flame retardancy, which poses a serious threat to mechanical quality and the environment. Therefore, there is an urgent need to develop inorganic fiber flame-retardant paper with good flexibility, high thermal stability, and inherent flame retardancy. Herein, inspired by the "brick-and-mortar" layered structure of nature nacre, we developed a layered composite paper with a unique alternating arrangement of organic−inorganic fibers by synergistically integrating environmentally sustainable basalt fiber (BF) and high-performance aramid nanofibers (ANFs) through a vacuum-assisted filtration process. The as-prepared ANFs/BF composite paper exhibited low thermal conductivity (0.024 W m −1 K −1 ), high tensile strength (54.22 MPa), and excellent flexibility. Thanks to its excellent thermal stability, the mechanical strength remains at a high level (92%) after heat treatment at 300 °C for 60 min. Furthermore, the peak heat release rate and smoke generation of ANFs/BF composite paper decreased by 44.6 and 95.3%, respectively. Therefore, the composite paper is promising for applications as a protective layer in flexible electronic devices, cables, and fire-retardant and high-temperature fields.

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The gorgeous transformation of paper: from cellulose paper to inorganic paper to 2D paper materials with multifunctional properties

Abstract: Cellulose paper derived from plants is used for daily writing and recording, and has historically played an important role in promoting cultural dissemination and inheritance. However, it attracted more and...

Cited by 26 publications

References 274 publications

Recent application progress and key challenges of biomass-derived carbons in resistive strain/pressure sensor

Recent application progress and key challenges of biomass-derived carbons in resistive strain/pressure sensor

Gold nanocluster composites: preparation strategies, optical and catalytic properties, and applications

Nacre-Inspired Aramid Nanofibers/Basalt Fibers Composite Paper with Excellent Flame Retardance and Thermal Stability by Constructing an Organic–Inorganic Fiber Alternating Layered Structure

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