Rhombohedral and Turbostratic Boron Nitride Polytypes Investigated by X-ray Absorption Spectroscopy

Olovsson, Weine; Magnuson, Martin

doi:10.1021/acs.jpcc.2c06895

Cited by 6 publications

(5 citation statements)

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“…However, the 2θ of h -BN and r -BN are all around 26.7°, indicating some inaccuracies with our sp 2 -BN. When both h -BN and r -BN exist in BN, the 2θ might be around 25–28° . Therefore, our sp 2 -BN belongs to t -BN, which can also be found in Figure c.…”

Section: Resultsmentioning

confidence: 58%

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Flow Modulation Epitaxy of Thick Boron Nitride Epilayers and Wafer-Level Exfoliation

Duo,

Yang,

Wang

et al. 2024

Crystal Growth & Design

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Uniform and continuous wafer-level sp 2 -hybridized boron nitride (sp 2 -BN) is essential for the development of other III-nitride semiconductors in alleviating lattice mismatch and constructing flexible devices. In this work, we realize wafer-level thick sp 2 -BN on 2 in. c-plane sapphire with a flow modulation epitaxy (FME) method by metal−organic chemical vapor deposition (MOCVD). It is revealed that the pulsed ammonia and triethylboron interruptions greatly improve the surface morphology and crystalline quality of sp 2 -BN, attributed to the unintentional nitridation, the decrease of C impurity concentration, and the increase of B atom surface mobility. The root-mean-square roughness of 6.5 nm sp 2 -BN is only 1.6 nm, and the full width at half-maximum of the Raman spectrum is only 31.18 cm −1 . Besides the flat morphology with uniform wrinkles, a well-ordered layered sp 2 -BN structure with a lattice spacing of 0.34 nm is also revealed. Furthermore, thick sp 2 -BN demonstrates controllable exfoliated characteristics due to a weak interfacial force. These findings highlight the comprehension of the growth behavior and exfoliated characteristics of sp 2 -BN on the sapphire substrate and provide opportunities for flexible nitride devices in mass production.

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Section: Resultsmentioning

confidence: 58%

“…When both h-BN and r-BN exist in BN, the 2θ might be around 25− 28°. 40 Therefore, our sp 2 -BN belongs to t-BN, which can also be found in Figure 3c. Further research is needed to determine how to regulate the crystal structure of sp 2 -BN.…”

Section: Resultsmentioning

confidence: 61%

Flow Modulation Epitaxy of Thick Boron Nitride Epilayers and Wafer-Level Exfoliation

Duo,

Yang,

Wang

et al. 2024

Crystal Growth & Design

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“…Out of the well-ordered sp 2 -hybridised forms of BN, h-BN has attracted the most interest in this research eld while r-BN has received relatively limited attention. One of the reasons for this di erence is due to the di culties associated with material and phase characterisation 7,8 which can be attributed to the similarities in the h-BN and r-BN structures. Both h-BN and r-BN consist of the same 2D honeycomb-shaped basal planes consisting of alternating B and N atoms, but these planes are instead stacked di erently with respect to the layer below, albeit with similar spacing between the basal planes, as illustrated in Figure 2.…”

Section: Figure 1: Calculated P-t Phase Diagrams At a Composition Of ...mentioning

confidence: 99%

“…e less-ordered a-BN is a promising ultra-low dielectric material that can, given its mechanical properties, also act as a diffusion barrier. [22][23][24] In the past t-BN was studied to form ordered phases of BN [25][26][27] , recently some characterisation tools have been used to identify more t-BN properties 8,28,29 . In general, given its material properties, t-BN can replace graphite in applications like lubricants and polymer fillers but additionally as insulators, for thermal and protective coatings etc.…”

Section: Properties and Applications Of Sp 2 -Boron Nitridementioning

confidence: 99%

Phase Evolution of Boron Nitride and Carbide during Chemical Vapor Deposition

Sharma

2024

Linköping Studies in Science and Technology. Dissertations

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in films of Boron Nitride (BN) and Boron Carbide (BC) possess properties that make them attractive for various applications. Epitaxially grown BN exhibits potential for optoelectronic devices, as piezoelectric materials, and graphene technology. Epitaxial BC is a semiconductor that could allow bandgap tuning and has potential applications in thermoelectric and optoelectronic devices. Both BN xi

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“…Polytypism is an abundant phenomenon in chemistry and crystallography, which plays an important role in numerous solid-state systems. − In the structure of a compound prone to polytypism, atomic layers or layered structural units may adopt different stacking motifs, thereby yielding two or more crystalline modifications known as polytypes. − For certain systems (e.g., SiC and CdI 2 ), crystallographic data include up to hundreds of polytypes. , The latter differ not only in their crystal structure but also in structure-related physical characteristics (optical properties, − thermal conductivity, , band structure, − crystal “hopping” effect, and even superconductivity) that makes them a versatile platform for the development of functional materials with tunable properties.…”

Section: Introductionmentioning

confidence: 99%

Polytypism and Packing-Dependent Colossal Positive and Negative Thermal Expansion in a 2D Layered Cerium-Based Coordination Polymer

Kendin,

Shaulskaya,

Tsymbarenko

2024

Crystal Growth & Design

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A two-dimensional layered coordination polymer [Ce 2 (H 2 O) 2 Prop 6 ] ∞ (Prop − = C 2 H 5 COO − ) has been crystallized in the form of two polytypes (α and β). Their structural features have been studied by means of variable-temperature single-crystal (VT-SCXRD) and powder (VT-PXRD) X-ray diffraction along with pair distribution function analysis of total X-ray scattering data (PDF). As revealed from VT-SCXRD and PDF data, α and β polytypes possess a similar local structure of layers but differ in the arrangement of layers. Single crystals and powders of [Ce 2 (H 2 O) 2 Prop 6 ] ∞ exhibit highly anisotropic thermal expansion, which is packing-dependent and drastically differs for α and β polytypes. Unit cell parameters for α demonstrate a nonlinear temperature dependence with colossal positive (α 3 CTE = +899 MK −1 ) and negative (α 1 CTE = −427 MK −1 ) linear coefficients of thermal expansion (CTEs) in the 190−210 K range. The temperature dependence of unit cell parameters for β demonstrates no colossal CTEs in the 100−300 K range. Periodic DFT-D calculations have shown the weakening of interlayer interactions (cohesive energies for α and β are 149 and 144 mJ/m 2 at 100 K, and 111 and 129 mJ/m 2 at 300 K, respectively) and relaxation of stressed layers upon heating.

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Rhombohedral and Turbostratic Boron Nitride Polytypes Investigated by X-ray Absorption Spectroscopy

Cited by 6 publications

References 50 publications

Flow Modulation Epitaxy of Thick Boron Nitride Epilayers and Wafer-Level Exfoliation

Flow Modulation Epitaxy of Thick Boron Nitride Epilayers and Wafer-Level Exfoliation

Phase Evolution of Boron Nitride and Carbide during Chemical Vapor Deposition

Polytypism and Packing-Dependent Colossal Positive and Negative Thermal Expansion in a 2D Layered Cerium-Based Coordination Polymer

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