cmos image sensor Search Results


93
Basler aca3800 14
Aca3800 14, supplied by Basler, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/product/cmos+image+sensor/10__1364_slash_oe__25__027104-489-59-61?v=Basler
Average 93 stars, based on 1 article reviews
aca3800 14 - by Bioz Stars, 2026-07
93/100 stars
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90
STMicroelectronics Pte cmos-vga sensor
Cmos Vga Sensor, supplied by STMicroelectronics Pte, 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/product/cmos+image+sensor/us07574066-153-8-27?v=STMicroelectronics+Pte
Average 90 stars, based on 1 article reviews
cmos-vga sensor - by Bioz Stars, 2026-07
90/100 stars
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90
Hamamatsu cmos sensors
Cmos Sensors, supplied by Hamamatsu, 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/product/cmos+image+sensor/ppr0861450-55-4-8?v=Hamamatsu
Average 90 stars, based on 1 article reviews
cmos sensors - by Bioz Stars, 2026-07
90/100 stars
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90
Hamamatsu cmos linear image sensor
Cmos Linear Image Sensor, supplied by Hamamatsu, 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/product/cmos+image+sensor/us08861086-168-11-15?v=Hamamatsu
Average 90 stars, based on 1 article reviews
cmos linear image sensor - by Bioz Stars, 2026-07
90/100 stars
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90
Sony sensor sony imx250myr
Sensor Sony Imx250myr, supplied by Sony, 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/product/cmos+image+sensor/pmc11174665-343-4-16?v=Sony
Average 90 stars, based on 1 article reviews
sensor sony imx250myr - by Bioz Stars, 2026-07
90/100 stars
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90
Sony monochrome cmos imaging sensor
a Illustration of experimental setups for imaging a head-fixed animal (left) and head-unrestrained animal (right) using Bio-FlatScopeNHP. b CAD rendering of the Bio-FlatScopeNHP with integrated illumination system. The device incorporates a fabricated phase mask, a hybrid filter set to filter out excitation light, an off-the-shelf <t>CMOS</t> sensor and the illumination from four blue LEDs. The integrated illumination module goes into the cortex chamber when in vivo imaging, with a ~ 3 mm working distance (distance between the sample and the bottom of the device). The sensor to sample distance is ~12 mm. c In vivo fluorescence images reconstructed by Bio-FlatScopeNHP captures on a head-fixed NHP (left) and a head-unrestrained NHP (right). Scale bar, 500 μm. d A field-of-view (FOV) comparison with current technology used for imaging calcium activities on a head-unrestrained NHP . e A photo of an assembled Bio-FlatScopeNHP prototype. Scale bar, 5 mm. f Comparison of Bio-FlatScopeNHP to head-mounted fluorescence microscopes implemented in rodent models. Star indicates the resolution and achievable FOV of Bio-FlatScopeNHP. Data points (1-9) in the figure: 1. FHIRM-TPM ; 2. Miniscope V4 ; 3. MiniLFM ; 4. miniscope-LFOV ; 5. Mesoscope ; 6. Kiloscope ; 7. Bio-FlatScope ; 8. cScope ; 9. mini-mScope . The resolution reported here is the peak resolution at the center of the FOV of each device, but it should be noted that the resolution near the edges of these microscopes is less than that at the center.
Monochrome Cmos Imaging Sensor, supplied by Sony, 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/product/cmos+image+sensor/pmc10858944-246-17-18?v=Sony
Average 90 stars, based on 1 article reviews
monochrome cmos imaging sensor - by Bioz Stars, 2026-07
90/100 stars
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90
Sony cmos image sensor (imx 081 rgb sensor)
a Illustration of experimental setups for imaging a head-fixed animal (left) and head-unrestrained animal (right) using Bio-FlatScopeNHP. b CAD rendering of the Bio-FlatScopeNHP with integrated illumination system. The device incorporates a fabricated phase mask, a hybrid filter set to filter out excitation light, an off-the-shelf <t>CMOS</t> sensor and the illumination from four blue LEDs. The integrated illumination module goes into the cortex chamber when in vivo imaging, with a ~ 3 mm working distance (distance between the sample and the bottom of the device). The sensor to sample distance is ~12 mm. c In vivo fluorescence images reconstructed by Bio-FlatScopeNHP captures on a head-fixed NHP (left) and a head-unrestrained NHP (right). Scale bar, 500 μm. d A field-of-view (FOV) comparison with current technology used for imaging calcium activities on a head-unrestrained NHP . e A photo of an assembled Bio-FlatScopeNHP prototype. Scale bar, 5 mm. f Comparison of Bio-FlatScopeNHP to head-mounted fluorescence microscopes implemented in rodent models. Star indicates the resolution and achievable FOV of Bio-FlatScopeNHP. Data points (1-9) in the figure: 1. FHIRM-TPM ; 2. Miniscope V4 ; 3. MiniLFM ; 4. miniscope-LFOV ; 5. Mesoscope ; 6. Kiloscope ; 7. Bio-FlatScope ; 8. cScope ; 9. mini-mScope . The resolution reported here is the peak resolution at the center of the FOV of each device, but it should be noted that the resolution near the edges of these microscopes is less than that at the center.
Cmos Image Sensor (Imx 081 Rgb Sensor), supplied by Sony, 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/product/cmos+image+sensor/pmc06408569-63-143-150?v=Sony
Average 90 stars, based on 1 article reviews
cmos image sensor (imx 081 rgb sensor) - by Bioz Stars, 2026-07
90/100 stars
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90
Hamamatsu high-speed cmos image sensor c8201
a Illustration of experimental setups for imaging a head-fixed animal (left) and head-unrestrained animal (right) using Bio-FlatScopeNHP. b CAD rendering of the Bio-FlatScopeNHP with integrated illumination system. The device incorporates a fabricated phase mask, a hybrid filter set to filter out excitation light, an off-the-shelf <t>CMOS</t> sensor and the illumination from four blue LEDs. The integrated illumination module goes into the cortex chamber when in vivo imaging, with a ~ 3 mm working distance (distance between the sample and the bottom of the device). The sensor to sample distance is ~12 mm. c In vivo fluorescence images reconstructed by Bio-FlatScopeNHP captures on a head-fixed NHP (left) and a head-unrestrained NHP (right). Scale bar, 500 μm. d A field-of-view (FOV) comparison with current technology used for imaging calcium activities on a head-unrestrained NHP . e A photo of an assembled Bio-FlatScopeNHP prototype. Scale bar, 5 mm. f Comparison of Bio-FlatScopeNHP to head-mounted fluorescence microscopes implemented in rodent models. Star indicates the resolution and achievable FOV of Bio-FlatScopeNHP. Data points (1-9) in the figure: 1. FHIRM-TPM ; 2. Miniscope V4 ; 3. MiniLFM ; 4. miniscope-LFOV ; 5. Mesoscope ; 6. Kiloscope ; 7. Bio-FlatScope ; 8. cScope ; 9. mini-mScope . The resolution reported here is the peak resolution at the center of the FOV of each device, but it should be noted that the resolution near the edges of these microscopes is less than that at the center.
High Speed Cmos Image Sensor C8201, supplied by Hamamatsu, 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/product/cmos+image+sensor/pmc06354559-86-21-26?v=Hamamatsu
Average 90 stars, based on 1 article reviews
high-speed cmos image sensor c8201 - by Bioz Stars, 2026-07
90/100 stars
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90
Hamamatsu cmos linear image sensor s 10114
a Illustration of experimental setups for imaging a head-fixed animal (left) and head-unrestrained animal (right) using Bio-FlatScopeNHP. b CAD rendering of the Bio-FlatScopeNHP with integrated illumination system. The device incorporates a fabricated phase mask, a hybrid filter set to filter out excitation light, an off-the-shelf <t>CMOS</t> sensor and the illumination from four blue LEDs. The integrated illumination module goes into the cortex chamber when in vivo imaging, with a ~ 3 mm working distance (distance between the sample and the bottom of the device). The sensor to sample distance is ~12 mm. c In vivo fluorescence images reconstructed by Bio-FlatScopeNHP captures on a head-fixed NHP (left) and a head-unrestrained NHP (right). Scale bar, 500 μm. d A field-of-view (FOV) comparison with current technology used for imaging calcium activities on a head-unrestrained NHP . e A photo of an assembled Bio-FlatScopeNHP prototype. Scale bar, 5 mm. f Comparison of Bio-FlatScopeNHP to head-mounted fluorescence microscopes implemented in rodent models. Star indicates the resolution and achievable FOV of Bio-FlatScopeNHP. Data points (1-9) in the figure: 1. FHIRM-TPM ; 2. Miniscope V4 ; 3. MiniLFM ; 4. miniscope-LFOV ; 5. Mesoscope ; 6. Kiloscope ; 7. Bio-FlatScope ; 8. cScope ; 9. mini-mScope . The resolution reported here is the peak resolution at the center of the FOV of each device, but it should be noted that the resolution near the edges of these microscopes is less than that at the center.
Cmos Linear Image Sensor S 10114, supplied by Hamamatsu, 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/product/cmos+image+sensor/us07511255-60-3-14?v=Hamamatsu
Average 90 stars, based on 1 article reviews
cmos linear image sensor s 10114 - by Bioz Stars, 2026-07
90/100 stars
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90
SAS institute e2v semiconductors sas ev76c570 cmos image sensor
a Illustration of experimental setups for imaging a head-fixed animal (left) and head-unrestrained animal (right) using Bio-FlatScopeNHP. b CAD rendering of the Bio-FlatScopeNHP with integrated illumination system. The device incorporates a fabricated phase mask, a hybrid filter set to filter out excitation light, an off-the-shelf <t>CMOS</t> sensor and the illumination from four blue LEDs. The integrated illumination module goes into the cortex chamber when in vivo imaging, with a ~ 3 mm working distance (distance between the sample and the bottom of the device). The sensor to sample distance is ~12 mm. c In vivo fluorescence images reconstructed by Bio-FlatScopeNHP captures on a head-fixed NHP (left) and a head-unrestrained NHP (right). Scale bar, 500 μm. d A field-of-view (FOV) comparison with current technology used for imaging calcium activities on a head-unrestrained NHP . e A photo of an assembled Bio-FlatScopeNHP prototype. Scale bar, 5 mm. f Comparison of Bio-FlatScopeNHP to head-mounted fluorescence microscopes implemented in rodent models. Star indicates the resolution and achievable FOV of Bio-FlatScopeNHP. Data points (1-9) in the figure: 1. FHIRM-TPM ; 2. Miniscope V4 ; 3. MiniLFM ; 4. miniscope-LFOV ; 5. Mesoscope ; 6. Kiloscope ; 7. Bio-FlatScope ; 8. cScope ; 9. mini-mScope . The resolution reported here is the peak resolution at the center of the FOV of each device, but it should be noted that the resolution near the edges of these microscopes is less than that at the center.
E2v Semiconductors Sas Ev76c570 Cmos Image Sensor, supplied by SAS institute, 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/product/cmos+image+sensor/us12131570-121-20-22?v=SAS+institute
Average 90 stars, based on 1 article reviews
e2v semiconductors sas ev76c570 cmos image sensor - by Bioz Stars, 2026-07
90/100 stars
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90
Isocell North America cmos image sensor samsung isocell sak2l4
( A to F ) An authentication process demonstrated by the following processes: (A) capturing optical PUF images on a PUF card using a <t>smartphone</t> camera, (B) inserting a given random number from the manufacturer, (C) sending images and numbers, including the initiation code to the RFID module on a PUF card,(D) generating optical and electrical keys from the logic chip sequence from the received information, (E) shuffling optical key using an electrical sequence, and (F) returning the shuffled key to the RFID module for validation processes.
Cmos Image Sensor Samsung Isocell Sak2l4, supplied by Isocell North America, 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/product/cmos+image+sensor/pmc12024658-161-15-18?v=Isocell+North+America
Average 90 stars, based on 1 article reviews
cmos image sensor samsung isocell sak2l4 - by Bioz Stars, 2026-07
90/100 stars
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90
Sumco Corporation cmos image sensor
( A to F ) An authentication process demonstrated by the following processes: (A) capturing optical PUF images on a PUF card using a <t>smartphone</t> camera, (B) inserting a given random number from the manufacturer, (C) sending images and numbers, including the initiation code to the RFID module on a PUF card,(D) generating optical and electrical keys from the logic chip sequence from the received information, (E) shuffling optical key using an electrical sequence, and (F) returning the shuffled key to the RFID module for validation processes.
Cmos Image Sensor, supplied by Sumco Corporation, 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/product/cmos+image+sensor/10__7567_slash_1347___4065_slash_ab358b-10-41-62?v=Sumco+Corporation
Average 90 stars, based on 1 article reviews
cmos image sensor - by Bioz Stars, 2026-07
90/100 stars
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Image Search Results


a Illustration of experimental setups for imaging a head-fixed animal (left) and head-unrestrained animal (right) using Bio-FlatScopeNHP. b CAD rendering of the Bio-FlatScopeNHP with integrated illumination system. The device incorporates a fabricated phase mask, a hybrid filter set to filter out excitation light, an off-the-shelf CMOS sensor and the illumination from four blue LEDs. The integrated illumination module goes into the cortex chamber when in vivo imaging, with a ~ 3 mm working distance (distance between the sample and the bottom of the device). The sensor to sample distance is ~12 mm. c In vivo fluorescence images reconstructed by Bio-FlatScopeNHP captures on a head-fixed NHP (left) and a head-unrestrained NHP (right). Scale bar, 500 μm. d A field-of-view (FOV) comparison with current technology used for imaging calcium activities on a head-unrestrained NHP . e A photo of an assembled Bio-FlatScopeNHP prototype. Scale bar, 5 mm. f Comparison of Bio-FlatScopeNHP to head-mounted fluorescence microscopes implemented in rodent models. Star indicates the resolution and achievable FOV of Bio-FlatScopeNHP. Data points (1-9) in the figure: 1. FHIRM-TPM ; 2. Miniscope V4 ; 3. MiniLFM ; 4. miniscope-LFOV ; 5. Mesoscope ; 6. Kiloscope ; 7. Bio-FlatScope ; 8. cScope ; 9. mini-mScope . The resolution reported here is the peak resolution at the center of the FOV of each device, but it should be noted that the resolution near the edges of these microscopes is less than that at the center.

Journal: Nature Communications

Article Title: Mesoscopic calcium imaging in a head-unrestrained male non-human primate using a lensless microscope

doi: 10.1038/s41467-024-45417-6

Figure Lengend Snippet: a Illustration of experimental setups for imaging a head-fixed animal (left) and head-unrestrained animal (right) using Bio-FlatScopeNHP. b CAD rendering of the Bio-FlatScopeNHP with integrated illumination system. The device incorporates a fabricated phase mask, a hybrid filter set to filter out excitation light, an off-the-shelf CMOS sensor and the illumination from four blue LEDs. The integrated illumination module goes into the cortex chamber when in vivo imaging, with a ~ 3 mm working distance (distance between the sample and the bottom of the device). The sensor to sample distance is ~12 mm. c In vivo fluorescence images reconstructed by Bio-FlatScopeNHP captures on a head-fixed NHP (left) and a head-unrestrained NHP (right). Scale bar, 500 μm. d A field-of-view (FOV) comparison with current technology used for imaging calcium activities on a head-unrestrained NHP . e A photo of an assembled Bio-FlatScopeNHP prototype. Scale bar, 5 mm. f Comparison of Bio-FlatScopeNHP to head-mounted fluorescence microscopes implemented in rodent models. Star indicates the resolution and achievable FOV of Bio-FlatScopeNHP. Data points (1-9) in the figure: 1. FHIRM-TPM ; 2. Miniscope V4 ; 3. MiniLFM ; 4. miniscope-LFOV ; 5. Mesoscope ; 6. Kiloscope ; 7. Bio-FlatScope ; 8. cScope ; 9. mini-mScope . The resolution reported here is the peak resolution at the center of the FOV of each device, but it should be noted that the resolution near the edges of these microscopes is less than that at the center.

Article Snippet: The prototype was constructed utilizing a commercially available board level camera (Imaging Source, DMM 37UX187-ML) with a monochrome Sony CMOS imaging sensor (IMX178LLJ with 6.3 MP and 2.4 μm pixels).

Techniques: Imaging, In Vivo Imaging, In Vivo, Fluorescence, Comparison

( A to F ) An authentication process demonstrated by the following processes: (A) capturing optical PUF images on a PUF card using a smartphone camera, (B) inserting a given random number from the manufacturer, (C) sending images and numbers, including the initiation code to the RFID module on a PUF card,(D) generating optical and electrical keys from the logic chip sequence from the received information, (E) shuffling optical key using an electrical sequence, and (F) returning the shuffled key to the RFID module for validation processes.

Journal: Science Advances

Article Title: Nanoseed-based physically unclonable function for on-demand encryption

doi: 10.1126/sciadv.adt7527

Figure Lengend Snippet: ( A to F ) An authentication process demonstrated by the following processes: (A) capturing optical PUF images on a PUF card using a smartphone camera, (B) inserting a given random number from the manufacturer, (C) sending images and numbers, including the initiation code to the RFID module on a PUF card,(D) generating optical and electrical keys from the logic chip sequence from the received information, (E) shuffling optical key using an electrical sequence, and (F) returning the shuffled key to the RFID module for validation processes.

Article Snippet: The optical properties were analyzed using complementary metal-oxide semiconductor (CMOS) image sensor on a commercial mobile smartphone (SAMSUNG ISOCELL SAK2L4, 4032 × 3024, 12.0 MP), UV-Vis spectroscopy (JASCO, V-770), and fluorescence spectroscopy (JASCO, FP-6000).

Techniques: Sequencing, Biomarker Discovery