3d optical scans Search Results


laser scanning optical microscopy 3d images  (KEYENCE)
90
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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2d and 3d scan optics  (SCANLAB GmbH)
90
SCANLAB GmbH 2d and 3d scan optics
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" />
2d And 3d Scan Optics, supplied by SCANLAB 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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triangulated mesh surfaces from mr images and the optical 3d scans  (ARTEC CO LTD)
90
ARTEC CO LTD triangulated mesh surfaces from mr images and the optical 3d scans
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" />
Triangulated Mesh Surfaces From Mr Images And The Optical 3d Scans, supplied by ARTEC CO LTD, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/triangulated mesh surfaces from mr images and the optical 3d scans/product/ARTEC CO LTD
Average 90 stars, based on 1 article reviews
triangulated mesh surfaces from mr images and the optical 3d scans - by Bioz Stars, 2026-06
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3d laser scanning optical profilometers uscan select  (NanoFocus Inc)
90
NanoFocus Inc 3d laser scanning optical profilometers uscan select
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" />
3d Laser Scanning Optical Profilometers Uscan Select, supplied by NanoFocus 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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3d optical scanning method  (Informa UK Limited)
90
Informa UK Limited 3d optical scanning method
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" />
3d Optical Scanning Method, supplied by Informa UK Limited, 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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spectral domain optical coherence tomography 3d scan of macula and circular scan of optic disk  (heidelberg engineering)
90
heidelberg engineering spectral domain optical coherence tomography 3d scan of macula and circular scan of optic disk
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" />
Spectral Domain Optical Coherence Tomography 3d Scan Of Macula And Circular Scan Of Optic Disk, supplied by heidelberg engineering, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/spectral domain optical coherence tomography 3d scan of macula and circular scan of optic disk/product/heidelberg engineering
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spectral domain optical coherence tomography 3d scan of macula and circular scan of optic disk - by Bioz Stars, 2026-06
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three-dimensional (3d) optical laser scanning keyence profiler microscope  (KEYENCE)
90
KEYENCE three-dimensional (3d) optical laser scanning keyence profiler microscope
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" />
Three Dimensional (3d) Optical Laser Scanning Keyence Profiler Microscope, 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
https://www.bioz.com/result/three-dimensional (3d) optical laser scanning keyence profiler microscope/product/KEYENCE
Average 90 stars, based on 1 article reviews
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confocal laser scanning optical microscope keyence 3d profiler  (KEYENCE)
90
KEYENCE confocal laser scanning optical microscope keyence 3d profiler
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" />
Confocal Laser Scanning Optical Microscope Keyence 3d Profiler, 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
https://www.bioz.com/result/confocal laser scanning optical microscope keyence 3d profiler/product/KEYENCE
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confocal laser scanning optical microscope keyence 3d profiler - by Bioz Stars, 2026-06
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3d optical measurement system based on white-light confocal microscopy of the disk-scanning type (µsurf  (NanoFocus Inc)
90
NanoFocus Inc 3d optical measurement system based on white-light confocal microscopy of the disk-scanning type (µsurf
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" />
3d Optical Measurement System Based On White Light Confocal Microscopy Of The Disk Scanning Type (µsurf, supplied by NanoFocus Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/3d optical measurement system based on white-light confocal microscopy of the disk-scanning type (µsurf/product/NanoFocus Inc
Average 90 stars, based on 1 article reviews
3d optical measurement system based on white-light confocal microscopy of the disk-scanning type (µsurf - by Bioz Stars, 2026-06
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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