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Hyperspectral Imaging Technology
Hyperspectral imaging is an emerging technology that combines traditional imaging and spectroscopy to obtain and analyze a large amount of spectral and spatial information from real scenes in the form of three-dimensional images. It has been widely used in the safety inspection and quality control of various food production.
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Nanoparticles Imaging
Nanoparticle generally refers to a particle with a size ranging from 1 to 100 nm, which is a powerful tool for molecular imaging due to their intrinsic unique magnetic or optical properties, and they can be applied to various imaging modalities.
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Single Molecule Fluorescence Imaging
Single-molecule fluorescence imaging technology is to label molecules of interest with fluorescent dyes, and then image and analyze them with fluorescence microscope. It can be used to study the structure of single molecules and their functions in physiological activities.
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Immunofluorescence technology
Immunofluorescence technology is to label the fluorescent pigment that does not affect the activity of antigen and antibody on the antibody (or antigen), combine it with its corresponding antigen (or antibody), and show a specific fluorescence reaction under the fluorescence microscope.
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Imaging Flow Cytometry
Imaging flow cytometry combines single-cell imaging capabilities of microscopy with the high-throughput capabilities of conventional flow cytometry, and flow cytometry is remarkably revolutionizing single-cell analysis.
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High Content Imaging
High content imaging uses automated microscopy, fluorescence detection, and multi-parameter algorithms to visualize and quantify therapeutic drug interactions in cell populations. It can detect changes in disease-related cells to help your early detection work.
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- Platform
- High Content Imaging
- Nanoparticles Imaging Technology
- Imaging Flow Cytometry
- Immunohistochemistry
- Time-Lapse Imaging
- Tissue Clearing and Volumetric Fluorescence Imaging
- Label-Free Live Cell Imaging
- Immunofluorescence
- Scaffold-Free Technologies
- Scaffold-Based Technologies
- Hematoxylin-Eosin Staining
- Fluorescence In Situ Hybridization
- Hyperspectral Imaging Technology
- Super-Resolution Imaging Technology
- Single Molecule Fluorescence Imaging
- Fluorescence Correlation Spectroscopy
- 3D Image Analysis
- Digital Pathology & Imaging Analysis
- Services
- Tissue Imaging Services
- Cell Imaging Analysis
- Molecular Imaging Services
- Microorganisms Imaging Services
- Bacterial Imaging Services
- Bacterial Growth Imaging Services
- Mycoplasma Imaging Detection
- Quantitative Image Analysis of Bacilli Viability in Soil Samples
- Imaging Analysis of Pathogens and Spoilage in Food
- Acid-Fast Bacteria Imaging Services
- Bacteria Transcript Imaging Services
- Bacterial Count Based on Image
- Bacterial Viability Imaging Services
- Bacterial Cell Wall Synthesis Imaging Services
- Bacterial Cell Pole Proteins Imaging Services
- Bacterial Membrane Vesicles Imaging Services
- Direct Multiplex Imaging of Bacterial Infections
- Monitoring Budding Yeast in Real Time
- Viral Imaging Services
- Viral Particle Structure Imaging Services
- Single-Virus Imaging Tracking Services
- Viral Replication Imaging Services
- Virus-Host Cell Interactions Imaging Services
- Viral Infection Imaging Services
- Viral Receptor Imaging Services
- Imaging of Immune Response to Virus Infection
- Herpes Simplex Virus Infection Imaging Analysis
- Bacterial Imaging Services
- Image-Based Quantitative Analysis Services
- Cellular or Area Based Quantification Analysis Services
- Tumor Immune Microenvironment Quantification Analysis Services
- Biomarker Quantification and Colocalization Analysis Services
- Tumor Area Quantification
- Tissue Microenvironment Spatial Quantification Analysis Services
- Tissue Flow Cytometry Quantification Analysis Services
- Products
- Drug R&D
- Resources
- Bioimaging Techniques
- Fluorescence Resonance Energy Transfer (FRET) Microscopy
- Fourier Transform Infrared (FTIR) Spectroscopy
- Infrared imaging-Bioimaging
- Raman Spectroscopy- Bioimaging
- Single-Particle Tracking (SPT)-Bioimaging
- Stimulated Emission Depletion (STED) Microscopy-Bioimaging
- Total Internal Reflection Fluorescence (TIRF) Microscopy-Bioimaging
- Two-Photon Microscopy-Bioimaging
- What is High Content Imaging
- How to Use High-Content Imaging Technology
- When to Use High-Content Imaging Technology
- What is Nanoparticles Imaging Technology
- How to Use Nanoparticle Imaging Technology
- When to Use Nanoparticle Imaging Technology
- What Is Imaging Flow Cytometry
- How to Use Imaging Flow Cytometry
- When to Use Imaging Flow Cytometry
- What Is Time-Lapse Imaging
- How to Use Time-Lapse Imaging
- When to Use Time-Lapse Imaging
- What Is Immunohistochemistry
- How to Use Immunohistochemistry
- When to Use Immunohistochemistry
- What Is Tissue Clearing and Volumetric Fluorescence Imaging
- How to Use Tissue Clearing and Volumetric Fluorescence Imaging
- When to Use Tissue Clearing and Volumetric Fluorescence Imaging
- What is Label-Free Live Cell Imaging
- How to Use Label-Free Live Cell Imaging
- When to Use Label-Free Live Cell Imaging
- How to Use Immunofluorescence
- When to Use Immunofluorescence
- What is Scaffold-Free Technologies
- How to Use Scaffold-Free Technologies
- Things to Note When Using Scaffold-Free Technologies
- What is Hematoxylin-Eosin Staining
- How to Use Hematoxylin-Eosin Staining
- Things to Note When Using Hematoxylin-Eosin Staining
- What is Fluorescence in Situ Hybridization
- How to Use Fluorescence In Situ Hybridization
- Things to Note When Using Fluorescence In Situ Hybridization
- How to Us Hyperspectral Imaging Technology
- Things to Note When Using Hyperspectral Imaging Technology
- What is Super-Resolution Imaging Technology
- How to Us Super-Resolution Imaging Technology
- Things to Note When Using Super-Resolution Imaging Technology
- What is Single Molecule Fluorescence Imaging
- How to Use Single Molecule Fluorescence Imaging
- Precautions for Single Molecule Fluorescence Imaging
- What is Fluorescence Correlation Spectroscopy
- How to Use Fluorescence Correlation Spectroscopy
- Precautions for Fluorescence Correlation Spectroscopy
- What is Tissue Immunolabeling and Imaging Analysis
- How to Use Tissue Immunolabeling and Imaging Analysis
- Precautions for Tissue Immunolabeling and Imaging Technology
- Bioimaging Modalities
- Bioimaging Applications
- Biomedical Imaging
- Molecular Imaging
- Proteomics Bioimaging
- Metabolomics Bioimaging
- Angiogenesis Imaging
- Cell Adhesion Bioimaging
- Immune Cell Infiltration Bioimaging
- Cell Structure Bioimaging
- Cell Cycle Bioimaging
- Cell Morphology Bioimaging
- Systems Biology Bioimaging
- Pathology Bioimaging
- Histology Bioimaging
- ATP Content Imaging
- Cell Autophagy Imaging
- Cell Proliferation Imaging
- Cellular Transfection Efficiency Bioimaging
- Drug Discovery Bioimaging
- Drug Targets Imaging
- Drug Toxicity Imaging
- In Vivo Drug Delivery Imaging
- NF-κB Translocation Imaging
- Wound Healing Imaging
- Imaging for the Study of Biomarkers in Tissues
- In Vivo Pharmacodynamic Imaging Applications
- Imaging Software and Analysis
- Bioimage Accessories and Equipment
- Bioimaging Marker Molecules
- Sample Processing for Bioimaging
- Routine Pathological Techniques-Tissue Embedding
- IHC Staining Practice Guide
- Chemiluminescence and Enzyme Immunoassay-HRP Labeling
- What is Paraffin Embedding Technique?
- Brain Tissue Sampling, Embedding Directions and Staining
- Heart Tissue Sampling, Embedding Orientation and Staining
- Collection, Embedding and Special Staining of Aortic Samples
- Collection, Embedding and Special Staining of Liver Samples
- Collection, Embedding and Special Staining of Kidney Samples
- Collection, Embedding and Special Staining of Lung Samples
- Collection, Embedding and Special Staining of Intestinal Tissue Samples
- Collection, Embedding and Special Staining of Skin Tissue Samples
- Tissue Clearing for Bioimaging
- What are Bioimaging Reagents?
- Fluorescent Probes in Bioimaging
- Fluorescent Dyes in Bioimaging
- Cell Labeling Dyes in Bioimaging
- Fluorescence Imaging Panel in Bioimaging
- Fluorescent Nanoparticles in Bioimaging
- Bioluminescent Substrates in Bioimaging
- Lentiviral Particles in Bioimaging
- Bioluminescent Tumor Cell Lines in Bioimaging
- Bioluminescent Bacterial Strains in Bioimaging
- Microbubble Contrast Agents in Bioimaging
- Deparaffinators, Retrievers and Enzymes in IHC
- Washers and Detergents in IHC
- Diluents and Blockers in IHC
- Counterstainers in IHC
- Slide Treatment Solutions in IHC
- Brain Tissue Microarrays in Bioimaging
- Head & Neck Tissue Microarrays in Bioimaging
- Heart & Vascular Tissue Microarrays in Bioimaging
- Spleen Tissue Microarrays in Bioimaging
- Colon Tissue Microarrays in Bioimaging
- Esophagus Tissue Microarrays in Bioimaging
- Intestine Tissue Microarrays in Bioimaging
- Liver Tissue Microarrays in Bioimaging
- Pancreas Tissue Microarrays in Bioimaging
- Rectum Tissue Microarrays in Bioimaging
- Stomach Tissue Microarrays in Bioimaging
- Lung Tissue Microarrays in Bioimaging
- Nasopharynx/Larynx Tissue Microarrays in Bioimaging
- Oral Cavity Tissue Microarrays in Bioimaging
- Adrenal Gland Tissue Microarrays in Bioimaging
- Thyroid Tissue Microarrays in Bioimaging
- Immune Tissue Microarrays in Bioimaging
- Cervix Tissue Microarrays in Bioimaging
- Bladder Tissue Microarrays in Bioimaging
- Breast Tissue Microarrays in Bioimaging
- Lymphoma Tissue Microarrays in Bioimaging
- Endometrium Tissue Microarrays in Bioimaging
- Kidney Tissue Microarrays in Bioimaging
- Ovary Tissue Microarrays in Bioimaging
- Penis Tissue Microarrays in Bioimaging
- Prostate Tissue Microarrays in Bioimaging
- Testis Tissue Microarrays in Bioimaging
- Urinary Reproductive Systems M/F Tissue Microarrays in Bioimaging
- Vulva Tissue Microarrays in Bioimaging
- Melanoma Tissue Microarrays in Bioimaging
- Skin Tissue Microarrays in Bioimaging
- Soft Tissue Microarrays in Bioimaging
- Muscle Tissue Microarrays in Bioimaging
- Bone Marrow Tissue Microarrays in Bioimaging
- Bone/Cartilage Tissue Microarrays in Bioimaging
- Multiple Organ Normal Tissue Microarrays in Bioimaging
- Multiple Organ Tumor Tissue Microarrays in Bioimaging
- Distant Metastasis Tissue Microarrays in Bioimaging
- Mesothelium Tissue Microarrays in Bioimaging
- Multicolor Histological Staining Technology
- Classification of Tissue Clearing Techniques
- Imaging Drug Targets Improves Precision of Treatment
- Nuclear Receptors Imaging Analysis in Drug Development
- Dopamine Receptors Imaging Analysis in Drug Development
- Epidermal Growth Factor Receptor Imaging Analysis in Drug Development
- Protein Kinases Imaging in Drug Development
- NMDA Receptors Imaging in Drug Development
- Integrin Receptors Imaging in Drug Development
- Chemokine Receptors Imaging in Drug Development
- Hydroxytryptamine Receptors Imaging in Drug Development
- Prostanoid Receptors Imaging in Drug Development
- Estrogen Receptors Imaging in Drug Development
- GABAA Receptors Imaging in Drug Development
- Leukotriene B4 Receptor1 Imaging in Drug Development
- Imaging Monitoring of Biomarkers in Tissues in Drug Development
- Bioimaging Techniques
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