Theoretical Studies of Functionalised Silicene

Spencer, Michelle J. S.; Morishita, Tetsuya

doi:10.1007/978-3-319-28344-9_5

Cited by 21 publications

(29 citation statements)

References 60 publications

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“…The reader can consult Refs. [ 97–100 ] for details on the studies examining this nanomaterial as well as a more recent article by Rouhi [ 101 ]. Overall, functionalization of silicane with hydrogen has been shown to widen the band gap, which is calculated to be ~2.3 eV for full surface functionalization.…”

Section: Monolayer Silicene Derivativesmentioning

confidence: 99%

“…Functionalization of silicane with acetylene, ethylene, styrene [ 120 ], propyl-, amine-, and ethoxy-groups [ 114 ], and nitrophenyl diazonium [ 119 ] has also been considered, and the products were predicted to be semiconductors. Further details of these functionalized silicanes have been reviewed previously [ 97 ].…”

Section: Monolayer Silicene Derivativesmentioning

confidence: 99%

“…Pristine monolayer silicene has been experimentally synthesized on metal substrates and its characteristics have been disclosed by both experimental [ 13–30 ] and theoretical studies [ 97–100 ]. In contrast, such attempts to synthesize and characterize multilayer silicene (MLS) have been initiated only recently [ 122,123 ].…”

Section: Bilayer Silicenementioning

confidence: 99%

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Chemical modification of group IV graphene analogs

Nakano

Tetsuka

Spencer

et al. 2018

Science and Technology of Advanced Materials

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Mono-elemental two-dimensional (2D) crystals (graphene, silicene, germanene, stanene, and so on), termed 2D-Xenes, have been brought to the forefront of scientific research. The stability and electronic properties of 2D-Xenes are main challenges in developing practical devices. Therefore, in this review, we focus on 2D free-standing group-IV graphene analogs (graphene quantum dots, silicane, and germanane) and the functionalization of these sheets with organic moieties, which could be handled under ambient conditions. We highlight the present results and future opportunities, functions and applications, and novel device concepts.

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Section: Monolayer Silicene Derivativesmentioning

confidence: 99%

Section: Monolayer Silicene Derivativesmentioning

confidence: 99%

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Chemical modification of group IV graphene analogs

Nakano

Tetsuka

Spencer

et al. 2018

Science and Technology of Advanced Materials

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“…Graphene has already demonstrated outstanding characteristics in terms of electrical conductivity, optical transparency, mechanical strength, and thermal conductivity [3,4]. Deep interest in graphene research facilitated the start of new two-dimensional solid materials, such as silicene, phosphorene, h-BN, and MoS 2 [5][6][7][8]. These two-dimensional layered materials exhibit unusual electrical properties due to their unique characteristics, e.g., it is possible to place various ions or molecules between their layers [9].…”

Section: Introductionmentioning

confidence: 99%

MXenes—A New Class of Two-Dimensional Materials: Structure, Properties and Potential Applications

et al. 2021

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A new class of two-dimensional nanomaterials, MXenes, which are carbides/nitrides/carbonitrides of transition and refractory metals, has been critically analyzed. Since the synthesis of the first family member in 2011 by Yury Gogotsi and colleagues, MXenes have quickly become attractive for a variety of research fields due to their exceptional properties. Despite the fact that this new family of 2D materials was discovered only about ten years ago, the number of scientific publications related to MXene almost doubles every year. Thus, in 2021 alone, more than 2000 papers are expected to be published, which indicates the relevance and prospects of MXenes. The current paper critically analyzes the structural features, properties, and methods of synthesis of MXenes based on recent available research data. We demonstrate the recent trends of MXene applications in various fields, such as environmental pollution removal and water desalination, energy storage and harvesting, quantum dots, sensors, electrodes, and optical devices. We focus on the most important medical applications: photo-thermal cancer therapy, diagnostics, and antibacterial treatment. The first results on obtaining and studying the structure of high-entropy MXenes are also presented.

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“…which was introduced by D. Bercioux, et al [1] in 2009, where v is the effective Fermi velocity, k ± = k x ± ik y and K is the 2D-crystal momentum.This system has attracted attention recently, particularly by Malcom and Nicol [2] who studied its electronic polarizability and related properties. This system falls into the class of Dirac materials, which includes group IV Dichalcogenides [3], Topological Insulators [4], Silicene [5] and, most notably, Graphene [6][7][8][9][10][11].…”

Section: Introductionmentioning

confidence: 99%

Exact Statistical Thermodynamics of the Pseudospin-1 System on the Diced Lattice

Glassere,

Horing

2020

Preprint

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Theoretical Studies of Functionalised Silicene

Cited by 21 publications

References 60 publications

Chemical modification of group IV graphene analogs

Chemical modification of group IV graphene analogs

MXenes—A New Class of Two-Dimensional Materials: Structure, Properties and Potential Applications

Exact Statistical Thermodynamics of the Pseudospin-1 System on the Diced Lattice

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