Description | Instant on-site verification of materials
With the MIRA P, you will be able to ensure smooth and efficient processes, as you will get a reliable "Pass" or "Fail" result in 15 to 20 seconds on average.
The instrument and dedicated MIRACal P software is compliant with 21 CFR Part 11 regulations,Instant on-site verification of materials
With the MIRA P, you will be able to ensure smooth and efficient processes, as you will get a reliable "Pass" or "Fail" result in 15 to 20 seconds on average.
The instrument and dedicated MIRACal P software is compliant with 21 CFR Part 11 regulations, making the MIRA P the ideal instrument for material verification in regulated industries.... Read More | Metrohm Instant SERS Analyzer (Misa) is a high performance, portable analyzer system used for rapid, trace level detection / identification of illicit materials, food additives and food contaminants. Misa features a high-efficiency spectrograph equipped with Metrohm's unique Orbital-Raster-Scan (ORSMetrohm Instant SERS Analyzer (Misa) is a high performance, portable analyzer system used for rapid, trace level detection / identification of illicit materials, food additives and food contaminants. Misa features a high-efficiency spectrograph equipped with Metrohm's unique Orbital-Raster-Scan (ORS) technology. It has a minimal footprint and extended battery life, perfect for on-site testing or mobile laboratory applications. Misa offers various Laser Class 1 attachments for flexible sampling options. Analyzer operation is available through BlueTooth or USB connectivity.
Features:
- Compact, portable design
- Intuitive guided workflows for straightforward operation
- No chemical know-how required
- Complete trace detection solution
... Read More | MIRA XTR DS is an alternative for high power 1064 nm systems. Powered by advanced computational processing, MIRA XTR DS uses a more sensitive 785 nm laser light along with XTR algorithms to eXTRact the Raman data from the sample fluorescence. MIRA XTR DS also features Orbital Raster Scanning (ORS) MIRA XTR DS is an alternative for high power 1064 nm systems. Powered by advanced computational processing, MIRA XTR DS uses a more sensitive 785 nm laser light along with XTR algorithms to eXTRact the Raman data from the sample fluorescence. MIRA XTR DS also features Orbital Raster Scanning (ORS) to provide better coverage of the sample increasing the accuracy of the results.
The Basic package is a starter package that contains the basic components required for operating the MIRA XTR DS. The Basic package includes Calibration Standard, Intelligent Universal Attachment, and the library of Illicit Materials. Class 3B operation.... Read More | MIRA XTR DS is an alternative for high power 1064 nm systems. Powered by advanced AI and Machine Learning, MIRA XTR DS uses a more sensitive 785 nm laser along with XTR algorithms to eXTRact the Raman data from the sample fluorescence. MIRA XTR DS also features Orbital Raster Scanning (ORS) to MIRA XTR DS is an alternative for high power 1064 nm systems. Powered by advanced AI and Machine Learning, MIRA XTR DS uses a more sensitive 785 nm laser along with XTR algorithms to eXTRact the Raman data from the sample fluorescence. MIRA XTR DS also features Orbital Raster Scanning (ORS) to provide better coverage of the sample increasing the accuracy of the results.
The Advanced package includes MIRA Lib KnowItAllTM Full Raman Library Collection of over 19,500 samples, MIRA XTR DS Raman spectral library for Illicit Materials, Calibration Standard, Intelligent Universal Attachment, Right-angle Attachment, Vial Attachment, and MIRA SERS Attachment. A complete package for any type of analysis. Class 3B operation.... Read More | The NanoRam-1064 is a high-performance handheld Raman Spectrometer for nondestructive identification and verification of incoming raw materials, such as APIs, excipients, and intermediates, regardless of their color. Compact and agile, the NanoRam-1064 can be used by non-technical users to rapidly The NanoRam-1064 is a high-performance handheld Raman Spectrometer for nondestructive identification and verification of incoming raw materials, such as APIs, excipients, and intermediates, regardless of their color. Compact and agile, the NanoRam-1064 can be used by non-technical users to rapidly identify samples in the warehouse, on the loading ramp, in the field or in the laboratory, minimizing quarantine areas and expediting materials through the manufacturing lifecycle. Utilizing Raman technology, the NanoRam-1064 minimizes fluorescence and can identify a large range of samples by distinguishing between different grades of cellulose, polysorbate and Opadry®. Rapid incoming material testing with the NanoRam-1064 can be performed through transparent containers, all the while maintaining sample volume and integrity. The unit also offers full onboard library and method validation, making a compliant workflow for methods and library development.
The NanoRam is fully compliant with the US FDA 21 CFR Part 11 and Part 1040.10, and can play an integral role in cGMP-compliant facilities. The NanoRam-1064 meets the requirements of Raman spectroscopy methods including the US Pharmacopeia <858>, European Pharmacopeia 2.2.48, Japanese Pharmacopeia 2.26, as well as the People’s Republic of China Pharmacopeia Directives on Raman Spectroscopy. Raman is a recognized method for complying with the PIC/S & GMP directives regarding 100% identity assurance for starting materials. A complete range of training courses and support services is available, including IQ/OQ/PQ/DQ implementation services, as well as method and/or new library development support.858>... Read More |
Applications | Onsite raw material verification | rapid onsite detection of contaminants in food matrices | material identification system for defense & security | material identification system for defense & security | Nondestructive identification and verification of incoming raw materials, such as APIs, excipients, and intermediates, regardless of their color. |