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Scanning Thermal Microscopy
Fundamental research and continued miniaturisation of systems (materials or components) have instigated and still require today the development of... -
Hybrid Techniquesand Multipurpose Microscopes
In this Chapter we discuss microscopes able to achieve submicron resolution using thermoelastic effects. Section 1 reviews the physical effects that... -
Nucleation Process of CVD Diamond on Molybdenum Substrates
Nucleation is a critical step of diamond growth by chemical vapour deposition (CVD), and its control is essential for optimising the properties of... -
Ce-doped α-Fe2O3 nanoparticles prepared by hydrothermal method used in corrosion-resistant field: effects of pH on the structure, morphology and chemical stability
Ce-doped α-Fe 2 O 3 nanoparticles were successfully synthesized by hydrothermal method at different pH. The relationship between the pH of the solution...
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Study of the Ancient Crimean Ceramics by Electron Microscopy Methods
Fragments of ancient amphorae and tiles dated to the IVth to IInd centuries BC, which were found on the Crimean peninsula, have been investigated by...
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High Critical Fields and Currents in Mechanically Alloyed MgB$_2$
The combination of high critical fields Hc2 and irreversibility fields H^irr and a critical current density jc for example in thin films render MgB2... -
Quantum-size-tuned heterostructures enable efficient and stable inverted perovskite solar cells
The energy landscape of reduced-dimensional perovskites (RDPs) can be tailored by adjusting their layer width ( n ). Recently, two/three-dimensional...
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Local electrical characterization of two-dimensional materials with functional atomic force microscopy
Research about two-dimensional (2D) materials is growing exponentially across various scientific and engineering disciplines due to the wealth of...
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Microstructural Characterization of V-Defects in InGaN/GaN Multiquantum Wells
InGaN multiple-quantum-well (MQW) structures grown by metal-organic chemical-vapor deposition (MOCVD) are found to contain V-defects attached to...
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Resolution and contrast enhancement in optical subtraction microscopy with annular aperture
A method for improving lateral resolution and reducing imaging distortion of optical subtraction microscopy is proposed. First, an azimuthally...
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Three-dimensional tomographic imaging of molecular orbitals by photoelectron momentum microscopy
AbstractAs one of the fundamental concepts of quantum mechanics, electrons in atoms and molecules are assigned to respective orbitals. The geometric...
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Correlation among magneto-, electrical- and thermal-transport properties in SrRuO3 films
The magneto-, electrical- and thermal-transport properties of SrRuO 3 (SRO) films have been investigated. The magnetization ( M ), relative resistivity...
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Graphene-Fiber Biochemical Sensors: Principles, Implementations, and Advances
Single atomically thick graphene, with unique structural flexibility, surface sensitivity, and effective light-mater interaction, has shown...
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Comparative Study of Trans-linear and Trans-impedance Readout Circuits for Optical Beam Deflection Sensors in Atomic Force Microscopy
The optical beam deflection sensor remains the most popular force detection method used in atomic force microscopy. With the recent development of...
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Laser Synthesis and Optical Properties of Hybrid Silicon Nanostructures for Photothermal Conversion of Solar Radiation
Dependences of the morphology and optical properties of silicon nanostructures on the laser ablation synthesis conditions, namely, the laser focusing...
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Analytical modeling of lack-of-fusion porosity in metal additive manufacturing
This work presents a physics-based analytical modeling methodology for the prediction of the lack-of-fusion porosity in powder bed metal additive...
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Scanning Capacitance Microscopy of Triglycine Sulfate Crystals with the Profile Chromium Distribution
The spatial capacitance distribution, domain wall configuration, and impurity composition of triglycine sulfate TGS–TGS + Cr crystals with a growth...
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Potential Images of Ferroelectric Domain Structures Formed by Electron Beam in Lithium Niobate Crystals
Ferroelectric domain structures formed by an electron beam in lithium niobate crystals are studied using low-voltage SEM microscopy. The structures...
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Review of the role of ionic liquids in two-dimensional materials
Ionic liquids (ILs) are expected to be used as readily available “designer” solvents, characterized by a number of tunable properties that can be...
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Narrow-bandgap materials for optoelectronics applications
Narrow-bandgap materials possess the intriguing optical-electric properties and unique structures, which can be widely applied in the field of...