Perfect for imaging 3D cell cultures and thick tissue samples. Silicone lenses enable visualization of cellular dynamics clearly and brightly when imaging at depth.
Research applications in neuroscience and cell biology using brain tissue, spheroids, organoids, and 3D cultures continue to push the limits of imaging in thick specimens. The need to image deep into such samples has never been more apparent. Nikon’s silicone immersion objectives enable clear observation with high signal-to-noise deep into living tissue.
The silicone immersion lens series features wide fields of view, high resolution, and evaporation-resistant oil, facilitating observations with ease.
With the addition of the new 60X objective, which employs newly developed glass for enhanced chromatic aberration correction, quantitative imaging in thick living specimens has never been more attainable.
Características principais
Efficiently switch magnification for macro-to-micro imaging without changing the immersion medium
SIL25X
SIL25X/1.05
Zoom 1X, Pixel 0.69 μm
SIL25X/1.05
Zoom 5X, Pixel 0.14 μm
SIL40X
SIL40X/1.25
Zoom 1X, Pixel 0.43 μm
SIL40X/1.25
Zoom 4X, Pixel 0.11 μm
SIL60X
SIL60X/1.30
Zoom 3X, Pixel 0.10μm
SIL60X/1.30
Zoom 1X, Pixel 0.29 μm
Small intestine enteroid (Cadherin: Alexa Fluor® 555, Nuclear: DAPI)
Images courtesy of: Dr. Yuki Yokoi, Dr. Kiminori Nakamura, and Dr. Tokiyoshi Ayabe
Innate Immunity Laboratory, Department of Cell Biological Science, Faculty of Advanced Life Science
Graduate School of Life Science, Hokkaido University
SIL100X
SIL100X/1.35
Zoom 1.6X, Pixel 0.11 μm
SIL100X/1.35
Zoom 1X, Pixel 0.17 μm
Make high-resolution deep observations of thick specimens such as 3D cell cultures, organoids, and tissues
2D image surface
Deep 2D image
Small intestine enteroid (Cadherin: Alexa Fluor® 555, Nuclear: DAPI)
Images courtesy of: Dr. Yuki Yokoi, Dr. Kiminori Nakamura, and Dr. Tokiyoshi Ayabe
Innate Immunity Laboratory, Department of Cell Biological Science, Faculty of Advanced Life Science
Graduate School of Life Science, Hokkaido University Science, Hokkaido University
Observe live samples over long periods of time
It is also best suited for long time-lapse imaging of live cells without the immersion medium evaporating because silicone oil has low volatility even at 37°C.
Time-lapse imaging of enteroid (25X)
Images courtesy of: Dr. Yuki Yokoi, Dr. Kiminori Nakamura, and Dr. Tokiyoshi Ayabe
Innate Immunity Laboratory, Department of Cell Biological Science, Faculty of Advanced Life Science
Graduate School of Life Science, Hokkaido University
By using the Denoise.ai in conjunction with the AX confocal microscope, you can acquire even sharper images.
Before Denoise.ai processing
After Denoise.ai processing
Newly developed Short-wavelength Refractive (SR) glass
The new silicone immersion 60X objective employs high- and specialized-dispersion glass that was independently developed by Nikon and possesses extra-low dispersion properties.
By refracting short-wavelength light to a higher degree, it is possible to collect a wider range of wavelengths, resulting in significantly enhanced chromatic aberration correction. In addition to axial chromatic aberrations, lateral chromatic aberrations can also be corrected.
Using only normal lens
With SR Lens
*The photo is a sample image
Useful for a variety of research applications, such as Immunity, Growth, Neuron, Drug Discovery and Regenerative medicine.
Mouse nerves
Images courtesy of: Lin Daniel, PhD. SunJin Lab Co.
Mouse synapse
Neutrophil flowing in blood vessel (time-lapse)
Images courtesy of: Professor Masaru Ishii, Department of Immunology and Cell Biology, Graduate School of Medicine, Osaka University
Spheroid
Small intestine organoid
Image courtesy of: Dr. Hidenori Akutsu and Dr. Tomoyuki Kawasaki of the Center for Regenerative Medicine, National Center for Child Health and Development
Fertilized mouse embryo
Image courtesy of: Dr. Yoshiteru Kai, Reproductive Medicine Research Center, YAMASHITA SHONAN YUME CLINIC
Dendrite
Folheto do produto
Ótica
- Silicone Immersion Series
- Série CFI Plan Apochromat Lambda D
- Série de super-resolução
- Série CFI Apochromat TIRF
- Objetivos para espécimes clarificados de imagens
- Série de imersão em água CFI75
- Série de imersão em água CFI60
- Série CFI Apochromat Lambda S
- Série CFI Plan Apochromat Lambda
- Série CFI Plan Apochromat VC Series
- Série CFI Plan Fluor para contraste de fase
- Série CFI Plan Fluor
- Série S Plan Fluor ELWD
- Série S Plan Fluor LWD
- Série CFI Super Fluor
- Objetivas de Contraste de Modulação Avançada da Nikon
- Objetivas para IMSI
- Série CFI Plano Achromat para Contraste de Fase
- Série CFI Plan Achromat
- Série CFI E Plan Achromat
- CFI BE2 Plan Achromat Series
- Série CFI Achromat para Contraste de Fase Apodizado
- Série CFI Achromat para contraste de fase
- Série CFI Achromat
- Série sem Lamínula de Cobertura (No Cover Glass, NCG)
- Série de Coloração por Dispersão