CIMA hyperspectral confocal microscope，400-1700nm， Ultra high optical resolution<0.6nm

CanadaPhoton ectProductiveCIMAHyperspectral confocal imaging systemAvailable400-1700nmSpectral and spatial information within the range, thisHyperspectral confocal microscopePaired with a sensitive camera, you can obtain300wavelength/Information in seconds, thereforeCIMAHyperspectral confocal microscopeEssentially, it is aHyperspectral microscopy imaging system.

shouldHyperspectral microscopeThe optical resolution can be as low as in the visible light range0.2 nmIn the infrared range, it can be as low as0.6 nmIt can also be customized according to requirements. Hyperspectral imaging microscope VIS series paired with back photosensitive typeCCDCamera,Hyperspectral imaging microscopeIR Series MatchingInGaAsLinear array camera is a scientific level hyperspectral microscopy imaging system that can be inverted.

CIMA hyperspectral confocal microscopeProvide three collection modes:Confocal mode, test tube mode, fluorescence mode. The light source isUHP 130WMercury lamp, excitation wavelength is980nm(Optional other wavelengths), including3A laser output port.

The hyperspectral imaging microscope can be used as a tool to study the optical anisotropy of lanthanide single crystals. The following figure shows the hyperspectral analysis process of lanthanide single crystal molecules by the hyperspectral imaging instrument. target1Displayed the image2The selected wavelength, as shown in the figure3Displayed613.26nmStrength analysis diagram in horizontal and vertical directions, Figure4Displayed in the target5Goal6Goal9The extracted emission wavelength.

CIMA hyperspectral confocal imaging system can be used to accelerate or reduce rare earth dopingLiYF4Analysis of microwave-assisted solvothermal synthesis process of particles. Bottom left image(A)Image study of Yb3+/Tm3+single particle photoluminescence using a hyperspectral imaging instrument, as shown in the bottom right image(B)representativeYb3+/ Er3+Single particle photoluminescence research. target1Displayed from the target2Extract hyperspectral converted emission spectral images. In the target2In the spectral false color image, the brighter the color, the greater the intensity, and the weaker the color, the smaller the intensity. In the target3The comparison of particle size and dimensions under study is displayed.

CanadaPhoton ectofCIMASpecification of hyperspectral confocal imaging system:

Photon ectCharacteristics and advantages of hyperspectral imaging microscope:

-Including visible light, near-infrared, and short wavelength infrared range（400-1400nm）

-High imaging efficiency

-Optical resolution<0.6nm

-A research grade microscope that can be placed upright or upside down

-The objective lens is 20 ×,40×，60X or50×，100X, can also be customized according to needs

Photo ectApplication of hyperspectral imaging microscope:

-Simultaneous study of spatial distribution and spectral characteristics of complex nanomaterials, such as upconversion nanoparticles and quantum dots

-Perform high-resolution hyperspectral microscopy examination in vitro or in vivo

-Developing a novel sensor based on spectral drift of fluorescence signals with environmental changes