optical microscopy image data Search Results


optical imaging and microscopy: techniques and advanced systems  (Verlag GmbH)
90
Verlag GmbH optical imaging and microscopy: techniques and advanced systems
Optical Imaging And Microscopy: Techniques And Advanced Systems, supplied by Verlag GmbH, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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optical microscope image  (Verlag GmbH)
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Verlag GmbH optical microscope image
Optical Microscope Image, supplied by Verlag GmbH, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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digital images under optical and fluorescence microscopy biozero  (KEYENCE)
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KEYENCE digital images under optical and fluorescence microscopy biozero
Digital Images Under Optical And Fluorescence Microscopy Biozero, supplied by KEYENCE, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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laser scanning optical microscopy 3d images  (KEYENCE)
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KEYENCE laser scanning optical microscopy 3d images
The hollow MN array component of a point-of-care system. Optical images of MN arrays on ( a ) a square plate and ( b ) a cap. SEM images of ( c ) an MN array, ( d ) an MN tip, and ( e ) an MN (oblique view). Keyence laser scanning optical <t>microscopy</t> <t>3D</t> images of the ( f ) MN and ( g ) dimensions of the MN as indicated by the plot of the height (y-axis) and width of the needle (x-axis). Optical images of trypan blue–coated punctured porcine skin using MN arrays of height of ( h ) 750 μm, ( i ) 800 μm, ( j ) 900 μm, and ( k ) 950 μm. Trypan blue was applied to the MN array–treated skin for visualization of the MN array–generated pores as shown in <xref ref-type=Figure 3 h–k. The MN arrays were inserted into the skin through manual application. The MN array penetrated the stratum corneum layer of the porcine skin without damage to the MN tips . 3D, three-dimensional; MN, microneedle; SEM, scanning electron microscope. " width="250" height="auto" />
Laser Scanning Optical Microscopy 3d Images, supplied by KEYENCE, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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direct stochastic optical reconstruction microscopy (dstorm) imaging system  (ABBELIGHT)
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ABBELIGHT direct stochastic optical reconstruction microscopy (dstorm) imaging system
The hollow MN array component of a point-of-care system. Optical images of MN arrays on ( a ) a square plate and ( b ) a cap. SEM images of ( c ) an MN array, ( d ) an MN tip, and ( e ) an MN (oblique view). Keyence laser scanning optical <t>microscopy</t> <t>3D</t> images of the ( f ) MN and ( g ) dimensions of the MN as indicated by the plot of the height (y-axis) and width of the needle (x-axis). Optical images of trypan blue–coated punctured porcine skin using MN arrays of height of ( h ) 750 μm, ( i ) 800 μm, ( j ) 900 μm, and ( k ) 950 μm. Trypan blue was applied to the MN array–treated skin for visualization of the MN array–generated pores as shown in <xref ref-type=Figure 3 h–k. The MN arrays were inserted into the skin through manual application. The MN array penetrated the stratum corneum layer of the porcine skin without damage to the MN tips . 3D, three-dimensional; MN, microneedle; SEM, scanning electron microscope. " width="250" height="auto" />
Direct Stochastic Optical Reconstruction Microscopy (Dstorm) Imaging System, supplied by ABBELIGHT, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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optical microscopy images of the composite cross-sections analyzed for gnpc  (Graphexel Ltd)
90
Graphexel Ltd optical microscopy images of the composite cross-sections analyzed for gnpc
The hollow MN array component of a point-of-care system. Optical images of MN arrays on ( a ) a square plate and ( b ) a cap. SEM images of ( c ) an MN array, ( d ) an MN tip, and ( e ) an MN (oblique view). Keyence laser scanning optical <t>microscopy</t> <t>3D</t> images of the ( f ) MN and ( g ) dimensions of the MN as indicated by the plot of the height (y-axis) and width of the needle (x-axis). Optical images of trypan blue–coated punctured porcine skin using MN arrays of height of ( h ) 750 μm, ( i ) 800 μm, ( j ) 900 μm, and ( k ) 950 μm. Trypan blue was applied to the MN array–treated skin for visualization of the MN array–generated pores as shown in <xref ref-type=Figure 3 h–k. The MN arrays were inserted into the skin through manual application. The MN array penetrated the stratum corneum layer of the porcine skin without damage to the MN tips . 3D, three-dimensional; MN, microneedle; SEM, scanning electron microscope. " width="250" height="auto" />
Optical Microscopy Images Of The Composite Cross Sections Analyzed For Gnpc, supplied by Graphexel Ltd, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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optical microscopy image data  (UES Inc)
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UES Inc optical microscopy image data
The hollow MN array component of a point-of-care system. Optical images of MN arrays on ( a ) a square plate and ( b ) a cap. SEM images of ( c ) an MN array, ( d ) an MN tip, and ( e ) an MN (oblique view). Keyence laser scanning optical <t>microscopy</t> <t>3D</t> images of the ( f ) MN and ( g ) dimensions of the MN as indicated by the plot of the height (y-axis) and width of the needle (x-axis). Optical images of trypan blue–coated punctured porcine skin using MN arrays of height of ( h ) 750 μm, ( i ) 800 μm, ( j ) 900 μm, and ( k ) 950 μm. Trypan blue was applied to the MN array–treated skin for visualization of the MN array–generated pores as shown in <xref ref-type=Figure 3 h–k. The MN arrays were inserted into the skin through manual application. The MN array penetrated the stratum corneum layer of the porcine skin without damage to the MN tips . 3D, three-dimensional; MN, microneedle; SEM, scanning electron microscope. " width="250" height="auto" />
Optical Microscopy Image Data, supplied by UES Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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optical microscopy images  (Leitz GmbH)
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Leitz GmbH optical microscopy images
The hollow MN array component of a point-of-care system. Optical images of MN arrays on ( a ) a square plate and ( b ) a cap. SEM images of ( c ) an MN array, ( d ) an MN tip, and ( e ) an MN (oblique view). Keyence laser scanning optical <t>microscopy</t> <t>3D</t> images of the ( f ) MN and ( g ) dimensions of the MN as indicated by the plot of the height (y-axis) and width of the needle (x-axis). Optical images of trypan blue–coated punctured porcine skin using MN arrays of height of ( h ) 750 μm, ( i ) 800 μm, ( j ) 900 μm, and ( k ) 950 μm. Trypan blue was applied to the MN array–treated skin for visualization of the MN array–generated pores as shown in <xref ref-type=Figure 3 h–k. The MN arrays were inserted into the skin through manual application. The MN array penetrated the stratum corneum layer of the porcine skin without damage to the MN tips . 3D, three-dimensional; MN, microneedle; SEM, scanning electron microscope. " width="250" height="auto" />
Optical Microscopy Images, supplied by Leitz GmbH, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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3-d reconstruction of fluorescence microscopy image intensities using multiple depth-variant point-spread functions  (Optics and Photonics)
90
Optics and Photonics 3-d reconstruction of fluorescence microscopy image intensities using multiple depth-variant point-spread functions
The hollow MN array component of a point-of-care system. Optical images of MN arrays on ( a ) a square plate and ( b ) a cap. SEM images of ( c ) an MN array, ( d ) an MN tip, and ( e ) an MN (oblique view). Keyence laser scanning optical <t>microscopy</t> <t>3D</t> images of the ( f ) MN and ( g ) dimensions of the MN as indicated by the plot of the height (y-axis) and width of the needle (x-axis). Optical images of trypan blue–coated punctured porcine skin using MN arrays of height of ( h ) 750 μm, ( i ) 800 μm, ( j ) 900 μm, and ( k ) 950 μm. Trypan blue was applied to the MN array–treated skin for visualization of the MN array–generated pores as shown in <xref ref-type=Figure 3 h–k. The MN arrays were inserted into the skin through manual application. The MN array penetrated the stratum corneum layer of the porcine skin without damage to the MN tips . 3D, three-dimensional; MN, microneedle; SEM, scanning electron microscope. " width="250" height="auto" />
3 D Reconstruction Of Fluorescence Microscopy Image Intensities Using Multiple Depth Variant Point Spread Functions, supplied by Optics and Photonics, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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optical microscopic pictures  (KEYENCE)
90
KEYENCE optical microscopic pictures
The hollow MN array component of a point-of-care system. Optical images of MN arrays on ( a ) a square plate and ( b ) a cap. SEM images of ( c ) an MN array, ( d ) an MN tip, and ( e ) an MN (oblique view). Keyence laser scanning optical <t>microscopy</t> <t>3D</t> images of the ( f ) MN and ( g ) dimensions of the MN as indicated by the plot of the height (y-axis) and width of the needle (x-axis). Optical images of trypan blue–coated punctured porcine skin using MN arrays of height of ( h ) 750 μm, ( i ) 800 μm, ( j ) 900 μm, and ( k ) 950 μm. Trypan blue was applied to the MN array–treated skin for visualization of the MN array–generated pores as shown in <xref ref-type=Figure 3 h–k. The MN arrays were inserted into the skin through manual application. The MN array penetrated the stratum corneum layer of the porcine skin without damage to the MN tips . 3D, three-dimensional; MN, microneedle; SEM, scanning electron microscope. " width="250" height="auto" />
Optical Microscopic Pictures, supplied by KEYENCE, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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fluorescence lifetime imaging microscopy (flim)  (Optics and Photonics)
90
Optics and Photonics fluorescence lifetime imaging microscopy (flim)
The hollow MN array component of a point-of-care system. Optical images of MN arrays on ( a ) a square plate and ( b ) a cap. SEM images of ( c ) an MN array, ( d ) an MN tip, and ( e ) an MN (oblique view). Keyence laser scanning optical <t>microscopy</t> <t>3D</t> images of the ( f ) MN and ( g ) dimensions of the MN as indicated by the plot of the height (y-axis) and width of the needle (x-axis). Optical images of trypan blue–coated punctured porcine skin using MN arrays of height of ( h ) 750 μm, ( i ) 800 μm, ( j ) 900 μm, and ( k ) 950 μm. Trypan blue was applied to the MN array–treated skin for visualization of the MN array–generated pores as shown in <xref ref-type=Figure 3 h–k. The MN arrays were inserted into the skin through manual application. The MN array penetrated the stratum corneum layer of the porcine skin without damage to the MN tips . 3D, three-dimensional; MN, microneedle; SEM, scanning electron microscope. " width="250" height="auto" />
Fluorescence Lifetime Imaging Microscopy (Flim), supplied by Optics and Photonics, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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sparse imaging for fast electron microscopy  (Optics and Photonics)
90
Optics and Photonics sparse imaging for fast electron microscopy
The hollow MN array component of a point-of-care system. Optical images of MN arrays on ( a ) a square plate and ( b ) a cap. SEM images of ( c ) an MN array, ( d ) an MN tip, and ( e ) an MN (oblique view). Keyence laser scanning optical <t>microscopy</t> <t>3D</t> images of the ( f ) MN and ( g ) dimensions of the MN as indicated by the plot of the height (y-axis) and width of the needle (x-axis). Optical images of trypan blue–coated punctured porcine skin using MN arrays of height of ( h ) 750 μm, ( i ) 800 μm, ( j ) 900 μm, and ( k ) 950 μm. Trypan blue was applied to the MN array–treated skin for visualization of the MN array–generated pores as shown in <xref ref-type=Figure 3 h–k. The MN arrays were inserted into the skin through manual application. The MN array penetrated the stratum corneum layer of the porcine skin without damage to the MN tips . 3D, three-dimensional; MN, microneedle; SEM, scanning electron microscope. " width="250" height="auto" />
Sparse Imaging For Fast Electron Microscopy, supplied by Optics and Photonics, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Image Search Results


The hollow MN array component of a point-of-care system. Optical images of MN arrays on ( a ) a square plate and ( b ) a cap. SEM images of ( c ) an MN array, ( d ) an MN tip, and ( e ) an MN (oblique view). Keyence laser scanning optical microscopy 3D images of the ( f ) MN and ( g ) dimensions of the MN as indicated by the plot of the height (y-axis) and width of the needle (x-axis). Optical images of trypan blue–coated punctured porcine skin using MN arrays of height of ( h ) 750 μm, ( i ) 800 μm, ( j ) 900 μm, and ( k ) 950 μm. Trypan blue was applied to the MN array–treated skin for visualization of the MN array–generated pores as shown in <xref ref-type=Figure 3 h–k. The MN arrays were inserted into the skin through manual application. The MN array penetrated the stratum corneum layer of the porcine skin without damage to the MN tips . 3D, three-dimensional; MN, microneedle; SEM, scanning electron microscope. " width="100%" height="100%">

Journal: JID Innovations

Article Title: Evolution of Transdermal Drug Delivery Devices and Novel Microneedle Technologies: A Historical Perspective and Review

doi: 10.1016/j.xjidi.2023.100225

Figure Lengend Snippet: The hollow MN array component of a point-of-care system. Optical images of MN arrays on ( a ) a square plate and ( b ) a cap. SEM images of ( c ) an MN array, ( d ) an MN tip, and ( e ) an MN (oblique view). Keyence laser scanning optical microscopy 3D images of the ( f ) MN and ( g ) dimensions of the MN as indicated by the plot of the height (y-axis) and width of the needle (x-axis). Optical images of trypan blue–coated punctured porcine skin using MN arrays of height of ( h ) 750 μm, ( i ) 800 μm, ( j ) 900 μm, and ( k ) 950 μm. Trypan blue was applied to the MN array–treated skin for visualization of the MN array–generated pores as shown in Figure 3 h–k. The MN arrays were inserted into the skin through manual application. The MN array penetrated the stratum corneum layer of the porcine skin without damage to the MN tips . 3D, three-dimensional; MN, microneedle; SEM, scanning electron microscope.

Article Snippet: Keyence laser scanning optical microscopy 3D images of the ( f ) MN and ( g ) dimensions of the MN as indicated by the plot of the height (y-axis) and width of the needle (x-axis).

Techniques: Microscopy, Generated