Technologies

The following are some characteristics of the Partica LA-960V2: Particle Size Analyzer:

1. Advanced Detector Design: The performance of the system as a whole is influenced by the quantity of detectors, angular range, and layout.
2. Greater Instrument-to-Instrument Precision: The LA-960V2 is engineered to deliver the same performance independent of the LA-960V2’s date of manufacture, the operator’s skill level, or the user’s location. Without the trouble of correlation, get unparalleled instrument agreement.
3. Automated Laser Alignment in Seconds: With computer-controlled laser alignment, measurements are always accurate. The revolutionary method used by HORIBA allows the alignment procedure to be completed in only a few seconds.
4. Accuracy and Precision Guaranteed: The LA-960V2 is a highly developed particle size analyzer that can precisely measure NIST-traceable size standards to within 0.6% of specification. Complete adherence to ISO 13320 standards for material measurement on the D10, D50, and D90.

The LA-350 Laser Diffraction Particle Size Distribution Analyzer from HORIBA offers a combination of high functionality, simple operation, low maintenance, and affordability while maintaining the accuracy, precision, and resolution of earlier LA-series analyzers.

• Flexible Operation: Readily adapt to changing measurement needs with a wider size range and flexible software.
• Simple Operation: One button operation is possible by using the methods and sequence options built into the software.
• Fast Analysis: Get answers now with quick measurement and analysis.

• Intuitive Sample Navigation And Confident Analysis Area Identification
• Superior Micro-Area Analysis
• The Only Fully Automated High-Throughput Lab-Based Multitechnique XPS/HAXPES Instrument on the Market Commercially Available
• Bring HAXPES synchrotron capabilities into your lab with the PHI Genesis
• Optimized Depth Profiling
• Suite Of Specialized Solutions For In Situ Characterization Of Advanced Materials

The PSA300 has the following noteworthy qualities:

• Offers particle size and particle shape information.
• Very good sensitivity and precision.
• The picture analysis process may be used again without changing the results.
• High Throughput.
• Automatically calculates several measurements on thousands of unique particles at once.
• The PSA300 imaging workstation enables the control of user rights, the audit trail of critical actions, electronic signatures, and overwrite protection of all electronic documents.

The advantages of the RA802 pharmaceutical analyser include:

• Ease of use – no need for expert users.
• Small footprint.
• No need for sample preparation.
• Simple method development.
• Internal reference standards.
• No risk of contamination.
• Relate formulation properties to real-world outcomes.

• Raman spectroscopy offers a non-invasive optical approach that preserves sample integrity.
• Simultaneous measurement of multiple molecular constituents in biological samples saves time and resources.
• Eliminates the need for sample staining or labeling.
• Provides high specificity, aiding in the discovery and validation of early disease markers.
• High-resolution Raman images offer comprehensive biomolecular and morphology information.

• Collect sequential Raman and AFM measurements
• Supports Dimension Icon, Dimension FastScan and Dimension Edge
• No need to move samples between systems
• Non-invasive coupling enables each instrument to be used independently without compromising performance
• Supports Raman imaging on the AFM
• Compatible with a comprehensive range of AFM modes including PeakForce TUNA™ for electrical characterization and PeakForce QNM® for quantitative nanomechanical mapping

The S mart 2 is the only autonomous areal confocal profilometer available on the market, and it is incredibly easy to install as it requires only two single connections (ethernet cable and a power supply). Its narrow width allows the integrable head to be installed in even the most difficult of zones, while its easy integration is enabled by the presence of all the electronics, including the computing power, inside the head. Furthermore, its high–efficiency passive cooling system ensures that the system is always ready to work.

• The SA-9600 series of surface area analyzers offers fast, convenient, and cost-effective measurements of surface area on a wide range of materials.
• It allows for ultra-fast single or multi-point surface area measurements with easy operation.
• The analyzers utilize the flowing gas method to acquire gas adsorption and desorption data, which is then used to calculate total surface area using the BET method.
• The flowing gas method is particularly advantageous in single-point mode, enabling up to thirty sample analyses per hour.
• The patented SA-9600 technology enables routine total surface area determination in as little as two to six minutes.
• The SA-9603 models have three stations for simultaneous surface area measurements.

• NL-UHV enables the generation and deposition of nanoparticles in an Ultra-High vacuum to create functionalized surfaces on samples.
• The properties of the nanoparticle coatings can be precisely controlled, including size, composition, and structure, allowing for tailored properties.
• NL-UHV instruments allow the direct deposition of ultra-pure nanoparticles on a wide range of substrates and materials.
• The film density can be adjusted, and the coating adheres well to the sample surface.
• Available in different configurations, including single 1″ and 2″ sources, as well as the triple 1″ source NL-DX3, which enables the deposition of up to three materials individually or as alloys.
• The NL-QMS mass filter offers advanced control over nanoparticle deposition, allowing the scanning or filtering of nanoparticles by mass or diameter in real-time.
• The NL-QMS is operated through user-friendly WindowsTM software, providing intuitive control over the deposition process.

• The ViewSizer 3000 is an advanced analyzer for exosomes, viruses, and nanoparticles.
• It uses multiple lasers for accurate and detailed analysis of particles in a sample.
• The device simultaneously measures particle size and concentration across a wide range of sizes.
• It adjusts laser power to avoid saturation or weak scattering, ensuring precise data.
• The ViewSizer 3000 is designed for easy cleaning to prevent cross-contamination.
• It provides accurate and sensitive analysis without the risk of cross-contamination.

• High performance portable fibre coupled Raman system
• High spatial resolution x/y <1 µm, z <2 µm
• Live white light sample viewing for accurate sample targeting
• Motorised x/y/z stack that enables accurate objective positioning for single point or mapping purposes
• Work with objective lens pointing downwards or horizontally

Y-Type Diamond Interaction Chamber (DIXC) is used to produce uniform nanoparticles in a high pressure homogenizer. The fixed geometry within the Y-Type DIXC is intended to create a uniform processing profile so that all materials will be processed with equal disruptive forces. Single-slotted interaction chambers have a single microchannel and are ideal choices for small batch research, while the multi-slotted interaction chamber comprises multiple microchannels in parallel, which can be used at industrial scales, by increasing the flow rate through the DIXC but with equal processing forces.

Z-Type Diamond Interaction Chamber (DIXC) is used to produce uniform nanoparticles in a high-pressure homogenizer. The fixed geometry within the Z-Type DIXC is intended to create a uniform processing profile so that all materials will be processed with equal disruptive forces. Single-slotted interaction chambers have a single microchannel and are ideal choices for small batch research, while the multi-slotted interaction chamber comprises multiple microchannels in parallel, which can be used at industrial scales, by increasing the flow rate through the DIXC but with equal processing forces.

Diamond Interaction Chamber (DIXC) is used to produce uniform nanoparticles in a high-pressure homogenizer. The fixed geometry within the DIXC is intended to create a uniform processing profile so that all materials will be processed with equal disruptive forces. Single-slotted interaction chambers have a single microchannel and are ideal choices for small batch research, while the multi-slotted interaction chamber comprises multiple microchannels in parallel, which can be used at industrial scales, by increasing the flow rate through the DIXC but with equal processing forces.