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Critical Component: Essential for biomedical and life science instruments.
Spectral Separation: Effectively separates and selects characteristic spectral bands of excitation and emitted fluorescence.
Versatile Applications: Widely used in Point-of-Care Testing (POCT), Polymerase Chain Reaction (PCR), fluorescence enzyme labeling instruments, and fluorescence microscopes.
Modular Design: Consists of two to three parts: excitation filters, emission filters (barrier filters), and optionally dichroic filters based on optical path requirements.
Applications: Point-of-Care Testing (POCT), Polymerase Chain Reaction (PCR), Fluorescence Enzyme Labeling Instruments, Fluorescence Microscopes, etc.
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Hard Coatings: Our narrowband filters utilize advanced hard coating techniques to ensure robustness and durability, making them suitable for demanding laboratory environments.
Optical Density (OD4): With an OD4 rating, these filters effectively block unwanted wavelengths, enhancing measurement accuracy and ensuring precise wavelength selection.
10nm Bandwidth: The 10nm bandwidth allows for precise isolation of specific wavelengths, crucial for applications requiring high selectivity and accuracy.
Blocking Range: These filters offer a broad blocking range from 200-1200nm, providing extensive protection against undesired wavelengths.
High Transmission: Exceptional optical transmission in the designed transparent range ensures minimal optical distortion, enabling researchers and engineers to achieve accurate and consistent results.
Mounted Design: The mounted design facilitates easy integration into various optical systems and experimental setups.
Applications: Fluorescence Microscopy, Raman Spectroscopy, Laser Experiments, etc.
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High Precision Optical Performance:
- Utilizes dielectric coating techniques to achieve exceptional spectral selectivity and high transmission rates.
- Ultra-thin substrates are possible, allowing compact integration into devices like cameras.
Wide Transmission Central Wavelength Range:
- Covers a broad spectrum from Ultra-Violet (UV) to Visible (VIS), ranging from 200nm to 700nm.
- Various bandwidth options are available to meet specific application needs.
Material and Construction:
- Made of dielectric coatings and high-quality glass substrates.
- Colored glass can be bonded with BK7 or Fused Silica to enhance spectral selection.
Standard and Custom Options:
- Dozens of stock modules with diameters ranging from 6mm to 25.4mm, featuring hard coatings for durability.
- Custom filters tailored to specific requirements can be designed and manufactured upon request.
Application: Biochemistry Analyzers, Enzyme Labeling Instruments, Polarimeters, Fluorescence Microscopy, UV Narrow Bandpass Filters, High Transmission Narrow Bandpass Filters, etc.
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High Precision Optical Performance:
- Utilizes dielectric coating techniques to achieve exceptional spectral selectivity and high transmission rates.
- Ultra-thin substrates are possible, allowing compact integration into devices like cameras.
- No absorptive colored glass is used as the substrate material, ensuring good physical stability and resistance to mold or fogging.
Wide Transmission Central Wavelength Range:
- Covers a broad spectrum from Ultra-Violet (UV) to Visible (VIS), ranging from 700nm to 10500nm.
- Various bandwidth options are available to meet specific application needs.
Material and Construction:
- Made from colored glass bonded with BK7 or Fused Silica, equivalent to high-quality glass sourced from Hoya.
- Ensures durability and high performance, mitigating dependency on substrate thickness.
Standard and Custom Options:
- Dozens of stock modules with diameters ranging from 6mm to 25.4mm, featuring hard coatings for durability.
- Custom filters tailored to specific requirements can be designed and manufactured upon request.
Application: Biochemistry Analyzers, Enzyme Labeling Instruments, Polarimeters, Fluorescence Microscopy, UV Narrow Bandpass Filters, High Transmission Narrow Bandpass Filters, etc.
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Material and Construction: Hard coatings are deposited on substrates made of colored glass bonded with BK7, equivalent to high-quality glass sourced from Hoya.
Optical Density: Standard Optical Density (OD) is ≥OD4, which ensures effective blocking of unwanted wavelengths.
Bandwidth: 10nm +/- 1nm Bandwidth enables sharp isolation of specific wavelengths, crucial for precise biochemical measurements.
Customization: Besides the stock versions, parameters such as center wavelength, bandwidth, and optical density can be tailored to match the spectral characteristics of target analytes.
Applications: Biochemistry Assays, Precision and Durability, Enhanced Analysis Capabilities, etc.
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Material and Construction: Hard coatings are deposited on substrates made of colored glass bonded with BK7, equivalent to high-quality glass sourced from Hoya.
Optical Density: Standard Optical Density (OD) is ≥OD4, ensuring effective blocking of unwanted wavelengths.
Bandwidth: The standard bandwidth is 10nm +/- 1nm, allowing sharp isolation of specific wavelengths.
Customization: Besides standard configurations, parameters such as center wavelength, bandwidth, and optical density can be tailored to match the spectral characteristics of target analytes.
Applications of ELISA Readers: DNA and RNA Quantification and Purity Analysis (A260/A280), Protein Quantification (A280/BCA/Bradford/Lowry), Enzyme Activity and Kinetics Detection, Cell Proliferation and Toxicity Analysis, Cell Apoptosis Detection, Reporter Gene Detection, G Protein-Coupled Receptor (GPCR) Assays, etc.
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Material and Construction: The filters are deposited on substrates made of colored glass bonded with BK7, known for its excellent optical properties and durability.
Optical Density: The standard Optical Density (OD) is ≥OD4, ensuring effective blocking of unwanted wavelengths and enhancing measurement accuracy.
Bandwidth: The standard bandwidth is 10nm +/- 1nm, which allows for precise isolation of specific wavelengths necessary for accurate polarization analysis.
Robustness and Longevity: The construction ensures that the filters can withstand demanding laboratory environments, providing reliable performance over time.
Applications: Material Characterization, Chemical Analysis, etc.
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Hard Coatings: Our UV narrowband filters utilize advanced hard coating techniques to ensure durability and robustness, making them ideal for demanding laboratory environments.
Optical Density (OD4): With an optical density of OD4, these filters effectively block unwanted wavelengths, providing superior measurement accuracy and clarity.
Blocking Range: These filters block wavelengths ranging from 200nm to 1200nm, offering comprehensive protection against undesired spectral ranges.
Narrowband Design: Specifically crafted for operations in the ultra-violet (UV) spectral range, these filters ensure precise wavelength selection for high-accuracy applications.
Applications: Fluorescence Microscopy, UV Spectroscopy, Laser Experiments, etc.
