Opportunities and Challenges in Twisted Bilayer Graphene: A Review

Nimbalkar, Amol R.; Kim, Hyunmin

doi:10.1007/s40820-020-00464-8

Cited by 105 publications

(62 citation statements)

References 146 publications

(210 reference statements)

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“…S7 and S8 †). 50 The intramolecular spacing between the consensus planes of the pyrene groups is 351.64 (15) pm, and these planes have bending angles 30 of just 3.8(4) . The pyrene groups are offset by only $50 pm from perfectly eclipsed.…”

Section: Resultsmentioning

confidence: 99%

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Cyclophane with eclipsed pyrene units enables construction of spin interfaces with chemical accuracy

et al. 2021

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Section: Resultsmentioning

confidence: 99%

“…[10][11][12][13] Superconductivity arises in a duplex of two graphene sheets if one is twisted by a "magic angle" ($1.1 ) with respect to the other. 14,15 These uncommon electronic properties arise because atoms at interfaces have been arranged in precise congurations that are challenging to achieve.…”

Section: Introductionmentioning

confidence: 99%

Cyclophane with eclipsed pyrene units enables construction of spin interfaces with chemical accuracy

et al. 2021

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“…This fact leaves the fine electronic structure of magic-angle TBG [1][2] unexplored, despite many theoretical speculations on the origin of the related exotic phenomena (for a review, see ref. [11]).…”

Section: Doi: 101002/adma202007503mentioning

confidence: 99%

Fermi Velocity Reduction of Dirac Fermions around the Brillouin Zone Center in In₂Se₃–Bilayer Graphene Heterostructures

Wang

Hao

Yu³

et al. 2021

Advanced Materials

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“…In short, great progress on tBLG has been achieved by numerous excellent studies in recent years. Although a few reviews on its physical properties have been reported, [35][36][37] the systematical introduction and summary for the fabrication challenges and preparation strategies of tBLG, characterization methods of twist angle, and their unique physicochemical properties is still lacking. Herein, we describe the cutting-edge preparation methods of tBLG and analyze their features and drawbacks to disclose the influence in properties and application of tBLG.…”

Section: Introductionmentioning

confidence: 99%

Fabrication Strategies of Twisted Bilayer Graphenes and Their Unique Properties

Cai

2021

Advanced Materials

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Therefore, graphene becomes a rising star on the horizon of materials science. Since the first report of centimeter-scale single-crystal graphene by Ruoff group showed high electrical quality, [9] great achievements have been made in the fabrication of high-quality graphene for the application in electronic devices, including single-crystalline graphene flakes, [10,11] super-ordered graphene structures, [12,13] super-clean graphene films, [14-16] and ultra-flat graphene films. [17] However, the zero-bandgap feature for monolayer graphene has limited its potential applications in semiconductors. In addition, the negligible mass, low yield, and high production costs of graphene are insurmountable bottlenecks for the practical application in energy conversion and storage. In particular, the absence of killer applications leads to the increased difficulty in graphene commercialization. [18,19] Nevertheless, it is undeniable that the unique structure of graphene has sparked intense interest in condensed matter physics, such as fractional quantum Hall effects, [17] proton permeation, [20] and plasmons. [21] More interestingly, twisted bilayer graphene (tBLG), which is similar to the van der Waals heterostructures, has a dramatic effect on the electronic properties. [22,23] The relative rotating graphene layers become a powerful model to study topological physical properties, including ferromagnetism, [24] Mott insulating behavior and superconducting behaviors, [25,26] topological valley transport, [27] van Hove singularities, [28] and tunable bandgap. [29] Consequently, the twisted structure of tBLG has triggered tremendous enthusiasm, even inspiring the formation of a new field for twisted 2D materials. Currently, production methods of tBLG contain chemical vapor deposition (CVD) on metal catalysts; [30] epitaxial growth on SiC substrate; [31] folding monolayer graphene, [32] and stacking monolayer graphene. [33] These methods are divided into two categories: direct growth and manual assembly. Generally, the direct growth of tBLG undergoes an in situ rearrangement of carbon atoms in the non-equilibrium state at high temperatures, whereas the ex situ vertical overlap of monolayer graphene by transfer process is the basic principle for manual assembly. The completely different preparation processes give rise to the distinctive advantages and disadvantages, but precise control over twist angle and super-clean interface are the ultimate pursuits for any preparation method. Recent progress in Twisted bilayer graphene (tBLG) exhibits a host of innovative physical phenomena owing to the formation of moiré superlattice. Especially, the discovery of superconducting behavior has generated new interest in graphene. The growing studies of tBLG mainly focus on its physical properties, while the fabrication of high-quality tBLG is a prerequisite for achieving the desired properties due to the great dependence on the twist angle and the interfacial contact. Here, the cutting-edge preparation strategies and challenges of tBLG fabrica...

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Opportunities and Challenges in Twisted Bilayer Graphene: A Review

Cited by 105 publications

References 146 publications

Cyclophane with eclipsed pyrene units enables construction of spin interfaces with chemical accuracy

Cyclophane with eclipsed pyrene units enables construction of spin interfaces with chemical accuracy

Fermi Velocity Reduction of Dirac Fermions around the Brillouin Zone Center in In₂Se₃–Bilayer Graphene Heterostructures

Fabrication Strategies of Twisted Bilayer Graphenes and Their Unique Properties

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Opportunities and Challenges in Twisted Bilayer Graphene: A Review

Cited by 105 publications

References 146 publications

Cyclophane with eclipsed pyrene units enables construction of spin interfaces with chemical accuracy

Cyclophane with eclipsed pyrene units enables construction of spin interfaces with chemical accuracy

Fermi Velocity Reduction of Dirac Fermions around the Brillouin Zone Center in In2Se3–Bilayer Graphene Heterostructures

Fabrication Strategies of Twisted Bilayer Graphenes and Their Unique Properties

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Fermi Velocity Reduction of Dirac Fermions around the Brillouin Zone Center in In₂Se₃–Bilayer Graphene Heterostructures