I. Product Overview
The Biofluorescence Confocal Raman Imaging System is a multimodal imaging platform that deeply integrates confocal microscopic imaging, fluorescence imaging and Raman spectral analysis. It enables morphological observation of biological samples, fluorescence labeling imaging, and label-free acquisition of molecular vibration information within a single system.
Centered on a confocal optical structure, the system adopts precise optical path control and high-sensitivity detection technology to achieve submicron spatial resolution. It can simultaneously obtain structural, functional and chemical composition information at the cellular, tissue and biomaterial levels, and is widely applied in cutting-edge research fields such as life sciences, biomedicine, drug research and development, and biomaterials.
II. Functional Features
Confocal Microscopic Imaging Function: Adopting a confocal optical structure, it effectively suppresses out-of-focus light interference and realizes high-contrast and high-resolution 3D imaging.
Multi-channel Fluorescence Imaging Capability: Supports multi-band fluorescence excitation and detection, compatible with commonly used fluorescent probes and fluorescent proteins to achieve multi-label imaging.
High-sensitivity Raman Spectrum Acquisition: Equipped with a high-performance spectrometer and low-noise detector, it can acquire Raman fingerprint information of biological samples and realize label-free chemical analysis.
Confocal Raman Point Scanning and Imaging: Supports Raman point spectrum, line scanning and area scanning imaging modes to construct chemical distribution maps of biological samples.
Multimodal Cooperative Working Mode: Fluorescence, confocal and Raman imaging can be completed in the same field of view, enabling accurate spatial registration of data.
III. Application Scenarios and Fields
Analysis of cell structure, organelle distribution and molecular composition in cell biology research;
Analysis of disease-related molecular changes and tissue chemical composition in biomedical research;
Research on intracellular distribution and action mechanism of drugs in the process of drug research and development;
Synergistic characterization of composition and structure for biomaterials and tissue engineering materials;
Construction of multimodal biological imaging platforms in universities and scientific research institutions.
IV. Technical Advantages
Deep integration of multimodal imaging for comprehensive information acquisition.The system integrates confocal microscopic imaging, fluorescence imaging and Raman spectral analysis into a single platform. It can obtain morphological, functional and chemical composition information simultaneously in a single experiment, greatly improving the depth and efficiency of biological sample research.
Confocal structure ensures high spatial resolution.With a precisely designed confocal optical path, it effectively suppresses out-of-focus signals and maintains clear spatial resolution even for complex biological samples, making it suitable for subcellular-scale research.
High Raman detection sensitivity suitable for biological sample analysis.Optimized for weak Raman signals, the system reduces photodamage risks while ensuring spectral resolution, and is ideal for analyzing living or fragile biological samples.
Accurate spatial registration of fluorescence and Raman data.Multimodal data are acquired under the same optical path and coordinate system, eliminating repetitive positioning errors and enabling precise correlation between structural and chemical information.
Strong system expandability and research adaptability.It supports expansion of multi-wavelength lasers, different spectral ranges and various detection modules. Flexible configuration can be made according to specific research requirements to meet diverse needs of basic and applied research.
V. Application Cases
Application Fields
Research Object | Imaging Mode | Application Description |
|
Cell Biology | Living cells | Fluorescence + Confocal Raman | Simultaneously acquire cellular structure and molecular composition information. |
Biomedicine | Tissue Section | Confocal Raman Imaging | Analyze the distribution of disease-related chemical components |
Drug R&D | Cell Model | Fluorescence + Raman |
Study the intracellular distribution and action of drugs |
Biomaterials | Tissue Engineering Materials | Confocal + Raman | Characterize material structure and chemical composition |
Note: The above configuration can be customized and adjusted according to users' experimental requirements.
The advanced software equipped in this system integrates brand-new quantitative Raman algorithms and AI analysis technology. Through Raman imaging and analytical algorithms, it can convert complex Raman spectral data into intuitive imaging results, supporting the accurate detection of more than 1000 biomolecules.Combined with AI analysis algorithms, the software provides precise classification, identification and 3D quantitative characterization, enabling detailed measurement of molecular concentrations in samples, such as the distribution of proteins at low and high concentrations.
In addition, the Raman software supports compatibility with the system to realize the mapping scanning function. It can collect Raman image information at different points of the sample and automatically save the acquired Raman data. Users can customize the start point, end point and step size of mapping, and observe the real-time position information of the current scanning image, ensuring the accuracy and efficiency of data acquisition.
Confocal Raman Microscope Mapping Test Image
Equipment Appearance Diagram at Customer Site
