Review of Graphene Growth From a Solid Carbon Source by Pulsed Laser Deposition (PLD)

Bleu, Yannick; Bourquard, Florent; Tite, Teddy; Loir, A.‐S.; Maddi, Chiranjeevi; Donnet, Christophe; Garrelie, Florence

doi:10.3389/fchem.2018.00572

Cited by 96 publications

(65 citation statements)

References 98 publications

(133 reference statements)

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“…Graphene is the most conductive form of carbon, and as such, it is considered as a promising electrode, especially when it is doped with nitrogen [229]. A recent review was devoted to PLD-graphene synthesized from a solid carbon source [335]. Since nitrogen modifies the intrinsic properties of graphene, it is important to control its concentration.…”

Section: Graphenementioning

confidence: 99%

Pulsed Laser Deposited Films for Microbatteries

Julien

Mauger

2019

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This review article presents a survey of the literature on pulsed laser deposited thin film materials used in devices for energy storage and conversion, i.e., lithium microbatteries, supercapacitors, and electrochromic displays. Three classes of materials are considered: Positive electrode materials (cathodes), solid electrolytes, and negative electrode materials (anodes). The growth conditions and electrochemical properties are presented for each material and state-of-the-art of lithium microbatteries are also reported.

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Section: Graphenementioning

confidence: 99%

Pulsed Laser Deposited Films for Microbatteries

Julien

Mauger

2019

Coatings

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“…These properties mean that graphene could be used in many technological fields including transparent electrodes, field emitters, biosensors, and batteries, to cite but a few examples. Many techniques exist for producing graphene including chemical vapor deposition, chemical reduction of graphene oxide, exfoliation, epitaxial growth on SiC or metal substrates, and physical vapor deposition methods including pulsed laser deposition (PLD) . Whatever the synthesis route chosen, many experimental factors affect the graphene nanoarchitecture and properties.…”

Section: Introductionmentioning

confidence: 99%

Raman study of the substrate influence on graphene synthesis using a solid carbon source via rapid thermal annealing

Bleu

Bourquard

Loir

et al. 2019

J Raman Spectroscopy

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We report the results of a comparative investigation of graphene films prepared on Si(100) and fused silica (SiO2) combining pulsed laser deposition and rapid thermal annealing using Ni catalyst. The effect of modifying the substrate and/or growth temperature (600–1,000°C) of graphene synthesis was investigated by Raman microspectroscopy mapping. Graphene grown on Si(100) was multilayered, and various nickel silicide phases had formed underneath, revealing dependence on the growth temperature. Films prepared on SiO2 mainly comprised bilayered and trilayered graphene, with no traces of nickel silicide. Analysis of Raman D, G, and 2D peak intensities and positions showed that modifying the growth temperature had different effects when a Si(100) or a SiO2 substrate is used. These findings advance our understanding of how different combinations of substrate and thermal processing parameters affect graphene synthesis from solid carbon source using nickel as a catalyst. This knowledge will enable better control of the properties of graphene film (defects, number of layers, etc.) and will have a high potential impact on the design of graphene‐based devices for scientific or industrial applications.

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“…The thin-layer BP film then grows on the substrate, which is driven by diffusion. This technique enables the fabrication of thin-layer BP with tunable sizes [147][148][149]. However, this method is not practical for massive production due to extremely high cost.…”

Section: Pulsed Laser Depositionmentioning

confidence: 99%

Two-Dimensional Black Phosphorus Nanomaterials: Emerging Advances in Electrochemical Energy Storage Science

et al. 2020

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HIGHLIGHTS • Two-dimensional black phosphorus (2D BP) possesses huge potential in electrochemical energy storage field owing to its unique electronic structure, high charge carrier mobility, and large interlayer spacing. • Comparison on the different preparation methods and processes, characteristics, and applications of few-layer BP is presented. • The applications of 2D BP in electrochemical energy storage devices in these years are well reviewed. ABSTRACT Two-dimensional black phosphorus (2D BP), well known as phosphorene, has triggered tremendous attention since the first discovery in 2014. The unique puckered monolayer structure endows 2D BP intriguing properties, which facilitate its potential applications in various fields, such as catalyst, energy storage, sensor, etc. Owing to the large surface area, good electric conductivity, and high theoretical specific capacity, 2D BP has been widely studied as electrode materials and significantly enhanced the performance of energy storage devices. With the rapid development of energy storage devices based on 2D BP, a timely review on this topic is in demand to further extend the application of 2D BP in energy storage. In this review, recent advances in experimental and theoretical development of 2D BP are presented along with its structures, properties, and synthetic methods. Particularly, their emerging applications in electrochemical energy storage, including Li − /K − /Mg − /Na-ion, Li-S batteries, and supercapacitors, are systematically summarized with milestones as well as the challenges. Benefited from the fast-growing dynamic investigation of 2D BP, some possible improvements and constructive perspectives are provided to guide the design of 2D BP-based energy storage devices with high performance.

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Review of Graphene Growth From a Solid Carbon Source by Pulsed Laser Deposition (PLD)

Cited by 96 publications

References 98 publications

Pulsed Laser Deposited Films for Microbatteries

Pulsed Laser Deposited Films for Microbatteries

Raman study of the substrate influence on graphene synthesis using a solid carbon source via rapid thermal annealing

Two-Dimensional Black Phosphorus Nanomaterials: Emerging Advances in Electrochemical Energy Storage Science

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