Ultra‐High Interfacial Thermal Conductance via Double hBN Encapsulation for Efficient Thermal Management of 2D Electronics
Heat dissipation is a major limitation of high‐performance electronics. This is especially
important in emerging nanoelectronic devices consisting of ultra‐thin layers …
important in emerging nanoelectronic devices consisting of ultra‐thin layers …
Flexible, Freestanding Ternary Nanocomposite Thick Film of Polyaniline/WS2/CNTs for Efficient Thermoelectric Application
Conducting polymers are promising for near-room-temperature, wearable thermoelectric
applications due to their flexibility, inherently low thermal conductivities, and tunable …
applications due to their flexibility, inherently low thermal conductivities, and tunable …
Measurement of Thermal Conductivity of Suspended and Supported Single-Layer WS2 Using Micro-photoluminescence Spectroscopy
Y Sang, J Guo, H Chen, W Yang, X Chen… - The Journal of …, 2022 - ACS Publications
In this work, the micro-photoluminescence (PL) technique is applied to study the thermal
transport properties of single-layer transition-metal dichalcogenide materials WS2 grown by …
transport properties of single-layer transition-metal dichalcogenide materials WS2 grown by …
[HTML][HTML] Exploring thermal and in-situ mechanical properties of flexible 2D tungsten disulfide foam-polymer composite for thermal management
In the realm of thermal management applications, there is a growing need for flexible
materials that can efficiently dissipate heat. Polymer composites incorporating two …
materials that can efficiently dissipate heat. Polymer composites incorporating two …
Temperature-dependent Raman spectroscopy analysis of single spiral WS2 nanosheets with screw dislocations
Y Madoune, AAA Ismail - Surfaces and Interfaces, 2023 - Elsevier
This study presents Raman spectroscopy measurements of Screw Dislocation Single Spiral
Pattern SDD-SSP-WS 2 samples supported on SiO 2/Si at various locations, including the …
Pattern SDD-SSP-WS 2 samples supported on SiO 2/Si at various locations, including the …
Phonon anharmonicity in multi-layered WS2 explored by first-principles and Raman studies
Anharmonicity is an essential property of two-dimensional materials due to its significant
impact on lattice dynamics–involving interactions between phonons, thermal expansion of …
impact on lattice dynamics–involving interactions between phonons, thermal expansion of …
Thermal transport and optical anisotropy in CVD grown large area few-layer MoS2 over an FTO substrate
Atomically thin MoS 2 is a promising candidate for its integration into devices due to its
strikingly unique electronic, optical, and thermal properties. Here, we report the fabrication of …
strikingly unique electronic, optical, and thermal properties. Here, we report the fabrication of …
Low energy switching of phase change materials using a 2D thermal boundary layer
The switchable optical and electrical properties of phase change materials (PCMs) are
finding new applications beyond data storage in reconfigurable photonic devices. However …
finding new applications beyond data storage in reconfigurable photonic devices. However …
Interlayer Vibronic Interactions and Phonon Anharmonic Decay in Few-Layer WS2 Nanoflakes
A Ghanghass, C Rani, I Sameera… - The Journal of …, 2024 - ACS Publications
Temperature-dependent (TD) Raman spectroscopy has been utilized to probe the phonon
anharmonicity in few-layer WS2, focusing on interlayer interactions and Davydov splitting …
anharmonicity in few-layer WS2, focusing on interlayer interactions and Davydov splitting …
Visualization of Strain-Engineered Nanopattern in Center-Confined Mesoscopic WS2 Monolayer Flakes
R Xu, Y Lun, L Meng, F Pang, Y Pan… - The Journal of …, 2022 - ACS Publications
Strain engineering plays a crucial role in controlling the physical properties of two-
dimensional (2D) materials. However, the mechanical behavior of stressed 2D crystals has …
dimensional (2D) materials. However, the mechanical behavior of stressed 2D crystals has …