Application of Nanotechnology in Wood-Based Products Industry: A Review

Jasmani, Latifah; Rusli, Rafeadah; Khadiran, Tumirah; Jalil, Rafidah; Adnan, Sharmiza

doi:10.1186/s11671-020-03438-2

Cited by 48 publications

(18 citation statements)

References 284 publications

(297 reference statements)

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“…Besides, the 1D fibrous cellulose has also been extracted and widely applied as templates, building blocks, separators, and hosts for electrode materials to fabricate flexible electrochemical energy storage devices, where they were usually integrated with active materials. [ 7,20 ]…”

Section: Electrochemical Energy Storage Devicesmentioning

confidence: 99%

Bioinspired Energy Storage and Harvesting Devices

Ren

Liu

Pei

et al. 2021

Adv Materials Technologies

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Knowledge learned from nature demonstrates that system performance can be enhanced and optimized by hierarchical structural design which has dramatically expanded implications for synthetic materials, from design to implementation. In recent years, numerous bioinspired and biomimetic strategies are devoted to design energy storage and harvesting devices. For these devices, efficient and stable electrode/electrolyte interfaces, modified interactions, and new functions are desired, which remain a challenge to fully meet the requirement of the rapidly developed electronic industry. This review, taking lithium batteries, nanogenerators and solar cells as examples, provides a summary and discussion of how the bio‐inspired strategies can influence the electrode/device design and the corresponding interface interactions. By applying and learning from biological materials, natural hierarchical structure, surface topography, and biochemical process, enhanced performance and stability for energy devices can be achieved. Future research expectations in this field and energy management are also discussed.

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Section: Electrochemical Energy Storage Devicesmentioning

confidence: 99%

Bioinspired Energy Storage and Harvesting Devices

Ren

Liu

Pei

et al. 2021

Adv Materials Technologies

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“…They also reported that the average particle size of copper used in the treatments was 16.5 nm. It has been reported in the literature that there is an advantage in the use of nanoproducts in wood impregnation, given their ability to enter deeply into the wood structure, hence improving the penetration and retention of the nanoparticle solution used as a preservative [41,42].…”

Section: Retention and Leachability Of Cunps In Radiata Pine Woodmentioning

confidence: 99%

Radiata Pine Wood Treated with Copper Nanoparticles: Leaching Analysis and Fungal Degradation

Aguayo

Oviedo

Hinojosa‐Reyes

et al. 2021

Forests

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Radiata pine is the main wood species used in the Chilean construction industry, but it must be protected due to its low natural durability. Chemical protection of wood by impregnation allows for a more efficient utilization of the forest resources by extending its useful life. The use of nanoparticles in wood protection has garnered great interest during the last decade, due to their unique physicochemical properties, different from those of larger sized materials. In this research, the impregnation of radiata pine wood with copper nanoparticles (CuNP) was studied in terms of retention, penetration, leaching, and its protective effect against wood rot fungi growth according to EN 113, AWPA A3-91, A9-18, and E11-16. Penetration analysis confirmed a uniform distribution across the wood, with total penetration in the impregnated samples with the highest concentration solution of CuNP. Retention values of the impregnated wood increased proportionally with the concentration of nanoparticles evaluated by EDXRF. Leaching analysis showed copper removal during the first hours of the test, with a constant leaching rate up to 144 h. Impregnated wood mass loss (ML) due to exposure to Gloeophyllum trabeum and Rhodonia placenta fungi were significantly reduced regardless of the CuNP concentration or fungi tested, with an ML smaller than 5% and smaller than 14% for leached samples.

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“…Nanotechnology can be used to form a very hard clear coating on a wood surface [ 59 , 60 ]. Nanotechnology is defined as the manipulation of matters between 1 and 100 nm.…”

Section: Property and Modificationmentioning

confidence: 99%

“…Figure 17A shows a surface coating failure due to moisture sorption and Figure 17B shows a coating failure due to end grain moisture sorption [56]. Nanotechnology can be used to form a very hard clear coating on a wood surface [59,60]. Nanotechnology is defined as the manipulation of matters between 1 and 100 nm.…”

Section: Coatingsmentioning

confidence: 99%

Understanding Wood Surface Chemistry and Approaches to Modification: A Review

Rowell

2021

Polymers

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Wood was designed, after millions of years of evolution, to perform in a wet environment. Nature is programmed to recycle it, in a timely way, back to the basic building blocks of carbon dioxide and water. All recycling chemistries start with an invasion of the wood surface. The surface of wood is porous, hygroscopic, viscoelastic, and anisotropic that is better defined in interface/interphase zones. This surface is dynamic and in constant change with changing humidity, temperature, oxygen levels, ultraviolet energy, microorganisms and stress. This chapter is a review of the chemical properties of a wood surface and performance issues associated with it.

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Application of Nanotechnology in Wood-Based Products Industry: A Review

Cited by 48 publications

References 284 publications

Bioinspired Energy Storage and Harvesting Devices

Bioinspired Energy Storage and Harvesting Devices

Radiata Pine Wood Treated with Copper Nanoparticles: Leaching Analysis and Fungal Degradation

Understanding Wood Surface Chemistry and Approaches to Modification: A Review

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