Publications by authors named "Hao-Ting Chin"
Extrinsic dilute magnetic semiconductors achieve magnetic functionality through tailored interaction between a semiconducting matrix and a non-magnetic dopant. The absence of intrinsic magnetic impurities makes this approach promising to investigate the newly emerging field of 2D dilute magnetic semiconductors. Here the first realization of an extrinsic 2D DMS in Pt-doped WS is demonstrated.
View Article and Find Full Text PDFTwo-dimensional transition metal nitrides offer intriguing possibilities for achieving novel electronic and mechanical functionality owing to their distinctive and tunable bonding characteristics compared to other 2D materials. We demonstrate here the enabling effects of strong bonding on the morphology and functionality of 2D tungsten nitrides. The employed bottom-up synthesis experienced a unique substrate stabilization effect beyond van-der-Waals epitaxy that favored WN over lower metal nitrides.
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- Two-dimensional metal nitrides are gaining attention for their use in future electronics and quantum systems, but creating them uniformly and at scale is challenging.
- This study showcases a method called confined growth, which improves the size and quality of 2D metal nitrides by controlling the reaction environment, leading to larger grain sizes and reducing unwanted multilayer formation.
- The research also discovered that adding a promoter helps produce high-quality, single-layer tungsten nitride, which significantly boosts its efficiency in hydrogen evolution reactions, showing a record Tafel slope.
Ultrahigh-quality graphene resonators by liquid-based strain-engineering.
Nanoscale Horiz
December 2023
Two-dimensional (2D) material-based nanoelectromechanical (NEM) resonators are expected to be enabling components in hybrid qubits that couple mechanical and electromagnetic degrees of freedom. However, challenges in their sensitivity and coherence time have to be overcome to realize such mechanohybrid quantum systems. We here demonstrate the potential of strain engineering to realize 2D material-based resonators with unprecedented performance.
View Article and Find Full Text PDFNitrogen Pretreatment of Growth Substrates for Vacancy-Saturated MoS.
ACS Appl Mater Interfaces
September 2023
Two-dimensional transition-metal dichalcogenides (2D TMDCs) are considered promising materials for optoelectronics due to their unique optical and electric properties. However, their potential has been limited by the occurrence of atomic vacancies during synthesis. While post-treatment processes have demonstrated the passivation of such vacancies, they increase process complexity and affect the TMDC's quality.
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- - Researchers observed ferroelectric properties in a 2D phase of water ice, created by confining it between two graphene layers at room temperature, demonstrating a strong, permanent dipole influenced by external electric fields.
- - They found that for ferroelectric ordering to occur, a monolayer of 2D ice is necessary, with findings supported by both simulations and tests on water's partial pressure and temperature.
- - The unique properties of this 2D ice allow for the development of new nanoelectromechanical devices with memory capabilities, showing significant switching performance and durability without degradation over numerous cycles.
Chemical vapor deposition (CVD) is promising for the large scale production of graphene and other two-dimensional materials. Optimization of the CVD process for enhancing their quality is a focus of ongoing effort and significant progress has been made in decreasing the defectiveness associated with grain boundaries and nucleation spots. However, little is known about the quality and origin of structural defects in the outgrowing lattice which are present even in single-crystalline material and represent the limit of current optimization efforts.
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