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Agilent G1103B Cary 8454 Uv-Vis Spectrophotometer
Wavelength Range 190 to 1100 nm
Wavelength Accuracy < ± 0.5 nm
Photometric Accuracy
± 0.005 AU
- Ideal for QA/QC labs, teaching environments, and chemical industries with robust performance
- Captures full spectra in as little as 0.1 seconds for rapid throughput
- Minimized stray light and superior noise control ensure reliable sample verification
- Stable optics and low-noise electronics provide reproducible results without moving parts
- Task-oriented software simplifies multi-wavelength and kinetic applications
- Maintenance-friendly with pre-aligned, easily replaceable deuterium and tungsten lamps
- Compact design with dimensions of 14 x 21 x 9 in. for easy integration into lab setups
- Supports high-demand applications with time-based measurements and multi-component analysis
The Agilent G1103B Cary 8454 UV-Visible Spectrophotometer is specifically designed for seamless operation in routine and complex applications, making it an excellent choice for quality assurance and quality control (QA/QC) environments, academic teaching labs, and the chemical industry. Its durable construction is ideal for laboratories with multiple users, and its intuitive software complies with stringent global pharmaceutical regulations. This instrument's standout features include rapid spectral acquisition, with the ability to capture a full spectrum in as little as 0.1 seconds, and superior reproducibility thanks to stable optics and high-precision, low-noise electronics that operate without moving parts. Furthermore, the Agilent Cary 8454 offers straightforward operation through task-oriented application software and features direct access to cells and cell holders for efficient sample management. Maintenance is simplified with easily replaceable pre-aligned deuterium and tungsten lamps, and built-in software and firmware enhancements support Good Laboratory Practice (GLP) standards.
The Agilent Cary 8454 covers a broad wavelength range from 190 to 1100 nm and utilizes dual lamp types—deuterium for the UV to near-visible spectrum and tungsten for the visible to near-infrared spectrum. This spectrophotometer ensures exceptional wavelength accuracy, typically within ± 0.5 nm, and maintains precise photometric accuracy across various tests. Its advanced design minimizes stray light and ensures impressive spectral resolution and noise control, critical for accurate sample analysis and verification. The device's rapid spectrum read time, which can be as quick as 0.1 seconds, not only enhances laboratory throughput but also facilitates immediate result acquisition and analysis, critical in high-demand settings. With capabilities for time-based measurements and support for complex multi-component software, the Cary 8454 is adept at handling multi-wavelength and kinetic applications, providing reliable and repeatable results that are essential for method validation and regulatory compliance. This makes the Agilent Cary 8454 UV-Visible Spectrophotometer a robust analytical tool that meets the diverse and demanding needs of modern chemical and pharmaceutical laboratories.
All of our equipment is fully tested to perform at factory
specifications before being shipped.
The Agilent G1103B Cary 8454 Uv-Vis Spectrophotometer includes:
- > New Tungsten Lamp
- > New Deterium Lamp
- > HP Windows 11 Laptop with UV-Visible ChemStation Version B.05.04 Pre-Installed
- > Lan Interface Card
- > Self Test Calibration Report
- > Power Cord
- > Full 180 Day Parts and Labor Warranty
Agilent G1103B Cary 8454 Uv-Vis Spectrophotometer Specifications
Wavelength Range
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190 to 1100 nm
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Lamps
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Deuterium: 190 nm to approximately 800 nm
Tungsten: 370 nm to 1100 nm
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Wavelength Accuracy
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Within ± 0.5 nm for 14 validated transmission peak minima of a certified NIST-traceable holmium oxide in perchlorate solution
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Photometric Accuracy
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Within ± 0.005 AU at 440, 465, 546.1, 590, and 635 nm at approximately 1 AU using the NIST-traceable 930e
± 0.01 AU at 235, 257, 313, 350 nm using a 6 % w/v potassium dichromate NIST-traceable 935a solution in 0.01 N sulfuric acid
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Stray Light
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> 0.03% at 340 nm measured with 50 g/l NaNO2 solution
> 0.05% at 220 nm measured with 10 g/l NaI solution
> 1% at 198 nm measured with 1.2% KCl solution
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Resolution
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The ratio of the absorbances at 269 and 266 nm of a 0.02 % v/v solution toluene in hexane is greater than 1.5
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Noise
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> 0.0002 AU rms (root mean square) at 500 nm and 0 AU
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Baseline Flatness
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> 0.001 AU rms at 0 AU
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Stability
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> 0.001 AU at 340 nm at 0 AU
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Spectrum Read Time
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As little as 0.1 seconds
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Dimensions (W x D x H)
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14 x 21 x 9 in. (35.5 x 53 x 22.8 cm)
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Weight
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41 lb. (18.6 kg)
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Electrical Requirements
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100-240V, 50/60Hz
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Computer Specifications
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Model
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Hewlett-Packard
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Processor
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Intel Core I5-8200U CPU
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RAM
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16.0 GB
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Hard Drive
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240GB Internal SSD
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Operating System
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Windows 11 Professional, 64-bit
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- Confirm the power supply and PCB output correct, stable voltages across all required connections
- Inspect the display for any dim or dead pixels; replace affected components to maintain full visual clarity and operational accuracy
- Verify full functionality of all buttons, ensuring precise and responsive input control
- Check the XY assembly for proper movement and alignment; thoroughly clean all railings, removing any debris or contaminants
- Confirm stable software communication and connection between the instrument and PC, addressing any connectivity issues
- Inspect and clean or replace all filters as required to ensure optimal airflow and performance
- Examine internal wiring and electrical connections for any breaks, disconnections, or tears; replace or secure any compromised wiring
- Test the lamp’s full functionality, replacing it if any performance issues, dimming, or faults are detected
- Execute the necessary validation protocol, documenting completion with a date on a calibration/verification certificate
- Perform and verify appropriate updates to the PC operating system for compatibility and security
- Conduct a thorough cosmetic inspection, ensuring all external components meet quality and aesthetic standards
Technician Inspection and Recertification Checklist: Instruments
The Following Checklist Is to Be Performed on All Incoming and Outgoing Pieces of Equipment
Task
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Completed?
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Remarks?
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Confirm stable, correct voltage outputs from power supply and PCB
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Completed
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Inspect display for dim or dead pixels; replace as needed
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Completed
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Verify functionality of all buttons for precise, responsive control
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Completed
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Check XY assembly for proper movement; clean railings to remove debris
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Completed
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Confirm stable software communication between instrument and PC
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Completed
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Inspect and clean or replace filters to maintain optimal performance
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Completed
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Examine internal wiring for damage; replace or secure compromised connections
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Completed
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Test lamp functionality; replace if dimming or faults are detected
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Completed
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Execute validation protocol and document on calibration/verification certificate
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Completed
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Update PC operating system for compatibility and security
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Completed
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Conduct cosmetic inspection to ensure quality of external components
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Completed
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To View More of Our Recertification Protocol Click Here
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