Significance of Scanning Electron Microscopy
Scanning Electron Microscopy (SEM) is a versatile microscopy technique used across Ayurveda, Science, Health Sciences, and Environmental Sciences. It employs a focused electron beam to create high-resolution images of a sample's surface, revealing detailed morphology, texture, and composition. SEM is utilized to analyze particle size, surface characteristics, and structural changes in various materials, including nanoparticles, crystals, cells, and fibers. The technique is crucial for understanding material properties and the effects of treatments or processes.
Synonyms: Electron microscopy, Scanning microscopy, Electron microscope, Surface analysis, Microanalysis
The below excerpts are indicatory and do represent direct quotations or translations. It is your responsibility to fact check each reference.
Hindu concept of 'Scanning Electron Microscopy'
In Hinduism, Scanning Electron Microscopy is a technique to analyze the microscopic structure and composition of substances like Rajata Bhasma and Vanga Bhasma, assessing particle size and overall effects on the body.
From: Journal of Ayurveda and Integrated Medical Sciences
(1) Scanning Electron Microscopy (Edx) study of Agnikumara Rasa revealed that the elements present in Agnikumara Rasa were Hg - 58.87%, S - 2.28%, O - 31.04%, Na - 7.80%.[1] (2) This is a technique used to examine the surface and particle size of the Vanga Bhasma samples.[2] (3) A technique used to analyze the structure of materials at a microscopic level, as employed in the study of Rajata Bhasma and other substances mentioned in the text.[3] (4) This is a method used to test nanoparticles, employed in the analysis of Ayurvedic products to assess their characteristics and properties at a microscopic level.[4] (5) This is an advanced analytical technique that may expand our comprehension of drugs' overall effects on the body, including their structure, behavior, and response.[5]
From: Journal of Ayurvedic and Herbal Medicine
(1) This is a microscopy technique that uses a focused beam of electrons to create an image of a sample's surface, allowing for the study of its morphology and composition.[6]
From: International Research Journal of Ayurveda and Yoga
(1) This is a technique used to study the product at each stage of preparation.[7]
The concept of Scanning Electron Microscopy in scientific sources
Scanning Electron Microscopy (SEM) is a high-resolution imaging technique used to analyze the surface morphology of various materials. It provides detailed images, revealing characteristics like texture, particle size, and structural changes at a microscopic level.
From: Asian Journal of Pharmaceutics
(1) The solid-state inclusion complexes were prepared by lyophilization technique and characterized by this.[8] (2) This microscopy was used to observe the morphology of finely ground particles.[9] (3) This was used to evaluate the morphology of the particle, and the shape of the particles was found to be needle shaped.[10] (4) A method used to examine the morphology of the microspheres.[11] (5) The characterization by this and light scattering indicated that high concentrations of triclosan seemingly caused the increase in the mean size of the nanoparticles.[12]
From: Onderstepoort Journal of Veterinary Research
(1) Scanning electron microscopy is used in conjunction with light microscopy to describe the basic gross morphological features of the avian tongue.[13] (2) This technique was employed to study the morphology of the cercariae, providing detailed images of their structures, including the oral sucker, acetabulum, and spines.[14] (3) This is a standard technique used to observe the attachment clamps' sclerites, which allows for the visualization of the bivalve-like structure, although it has limitations.[15] (4) This is a technique used to examine the morphology of the parasites, and the study utilized it to examine the morphology of the species.[16] (5) Scanning electron microscopy is a technique used to photograph the conidia and chlamydospores of some nematophagous isolates, allowing for detailed examination.[17]
From: International Journal of Pharmacology
(1) Also known as SEM, it was performed to evaluate the morphological changes induced by the extract in the cellular membrane of the bacteria.[18] (2) This was used to identify the shape and surface morphology of produced nanoparticles after drying them.[19] (3) It is used to record the surface morphology of the prepared Zein coated ZnO nanoparticles.[20] (4) Lased dentin surfaces present several characteristics that appear to be advantageous for resin composite bonding using Scanning Electron Microscopy.[21] (5) This is used to visualize C. pseudotuberculosis biofilms and observe morphological differences in treated biofilm architectures.[22]
From: The Malaysian Journal of Medical Sciences
(1) This microscopy technique is used to visualize biofilms, and the text discusses its use in examining the effects of honey and other substances on bacteria.[23] (2) This is a technique used to visualize the surface of samples at a microscopic level, allowing researchers to observe the structure of biofilms and the effects of treatments.[24] (3) A high-resolution imaging technique used to visualize the morphology and structure of dental materials and surfaces at the microscopic level.[25] (4) Scanning electron microscopy (SEM) is a technique used in the study to observe the morphological features of HDF on scaffolds.[26]
From: Journal of Medicinal Plants for Economic Development
(1) This is a technique used to examine the surface of a sample at a microscopic level, used in the study.[27]
From: Sustainability Journal (MDPI)
(1) Scanning Electron Microscopy (SEM) is used alongside other methods to analyze the occurrence of cadmium in different soil thicknesses, providing a scientific basis for understanding the activity and forms of cadmium in soil profiles.[28] (2) This is a type of electron microscope that produces images of a sample by scanning it with a focused beam of electrons.[29] (3) "Scanning electron microscopy", or SEM, is used to analyze the surface morphology of EU-biochar, revealing pore structures that facilitate metal ion adsorption.[30] (4) Scanning electron microscopy (SEM) was used for morphological characterization, coupled with an energy-dispersive detector (EDS) to analyze the composition of the materials.[31] (5) It is a technique used to examine the micro-morphology of the expansive soil, providing images that allow for analysis of the local microstructural characteristics of the particles.[32]
From: International Journal of Environmental Research and Public Health (MDPI)
(1) It was used to describe the surface morphology of the mesophilic sludge before and after contact with CSWW.[33] (2) Scanning electron microscopy, also known as SEM, is used to evaluate the morphology of activated clay, providing detailed images of its surface structure and texture.[34] (3) A method used to analyze the fibrous structure of the filter; some other studies have already used X-ray micro-CT technology to study the porous filter microstructure, as well as scanning electron microscopy.[35] (4) Is used to show that more extracellular filamentous bacteria could be seen in the R 1 reactor with better morphology of Anammox bacteria, while the R 2 reactor had fewer extracellular hyphae and micropores.[36] (5) Scanning electron microscopy, or SEM, is used to characterize the catalysts, providing detailed images of the α -FeOOH catalyst's surface morphology.[37]
From: International Journal of Pharmacology
(1) Scanning electron microscopy (SEM) was used to characterize the milled samples, examining crystal habit and particle size reduction.[38] (2) Scanning electron microscopy (SEM) provides detailed surface imaging of nanoparticles, revealing their shape and texture.[39] (3) A microscopy technique, along with X-ray microanalysis, expected to be used in the study of sperm cells for Smart RISUG research.[40]