Significance of Scanning Electron Microscopy (SEM)
Scanning Electron Microscopy (SEM) is a high-resolution imaging technique that captures detailed images of a sample's surface morphology and size at microscopic levels. It is commonly used to analyze the structure of various materials, including nanoparticles, microspheres, and cellular components. SEM helps understand the surface characteristics, shapes, and sizes of samples, providing insights into their structural integrity and properties. This technique is particularly valuable in fields such as materials science, medicine, and nanotechnology for characterizing synthesized substances and their interactions.
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The concept of Scanning Electron Microscopy (SEM) in scientific sources
Scanning Electron Microscopy (SEM) is a high-resolution imaging technique that examines surface morphology, particularly useful for analyzing λ DNA loaded chitosan microspheres and characterizing silver nanoparticles by providing detailed surface topography images.
From: World Journal of Pharmaceutical Research
(1) A microscopy method that visualizes the particle morphology of Metformin HCL, revealing needle-shaped crystals associated with poor compressibility and changes after spray-drying to improve flow properties.[1] (2) A technique for visualizing the surface structure and morphology of dried samples, which were coated with gold ions, using a scanning electron microscope (Hitachi, JEOL-JSM 5800).[2] (3) A technique employed to observe the surface morphology of Grevillea robusta gum particles.[3] (4) A microscopy technique used to visualize the surface structure of microspheres at a high magnification.[4] (5) A method used to study the surface morphology of Grevillea robusta gum at a microscopic level, providing insights into its structural characteristics.[5]
From: International Ayurvedic Medical Journal
(1) A technique that uses electrons to form high-resolution images of a sample's surface topography.[6]
From: Journal of Indian Society of Periodontology
(1) A method used to evaluate the morphology and adhesion of blood components on root surfaces following treatments.[7]
From: Journal of Ayurveda and Integrative Medicine
(1) A technique employed to analyze the particle size and nature of the fine powder produced at the Putapaka step.[8]
From: Ayushdhara journal
(1) An imaging technique that uses electron beams to visualize the surface morphology of the sample, revealing structural details at high magnifications.[9]