Technologies

• Fast & Efficient Analysis – Reduces analysis cycle time by 40%, enabling high-throughput measurements.
• High Accuracy & Precision – In-house developed NDIR and TCD detectors ensure stable and reliable measurements.
• Cost-Efficiency – Reduces carrier gas consumption by approximately 40%, increasing the number of measurements per gas cylinder.
• Advanced Cleaning Efficiency – New dust filter mechanism reduces the need for frequent maintenance by 10 times, ensuring continuous operation.
• Enhanced User Safety – Automated crucible loader, auto sampler, and auto cleaner reduce manual handling and operator exposure.
• Superior Versatility – Analyzes a wide range of materials, including steel, non-ferrous alloys, ceramics, semiconductors, and energy materials.
• Comprehensive Software & Usability – Intuitive operating software with self-diagnostic monitoring, advanced troubleshooting navigation, and real-time status alerts.
• User-Friendly Interface – Touch-panel, keyboard, and mouse controls for easy operation and navigation.

Flexible Automation Options:

• Crucible Loader – Automatically positions up to 100 crucibles for continuous operation.
• Auto Sampler – Accommodates up to 22 sample positions for automated flux and sample loading.
• Auto Cleaner – Rotating brushes clean the upper and lower electrodes after each measurement for consistent accuracy.

• Fast & Efficient Analysis – Achieves 40% faster analysis cycle time with HORIBA’s proprietary sequence algorithm, enabling high-throughput measurements.
• High Accuracy & Precision – Utilizes in-house developed NDIR and TCD detectors for stable and reliable measurements.
• Cost-Effective Solution – Provides high cost-performance with lower operational costs compared to advanced models.
• Reduced Gas Consumption – 40% reduction in carrier gas consumption, increasing the number of measurements per gas cylinder.
• Easy Maintenance – New dust filter mechanism and easy lower electrode replacement reduce maintenance frequency by 10 times, ensuring continuous operation.
• Versatile Applications – Suitable for energy materials, semiconductors, metallurgy, ceramics, chemicals, and more.
• User-Friendly Interface – Intuitive operating software with self-diagnostic monitoring, advanced troubleshooting navigation, and real-time status alerts.

Flexible Automation Options:

• Crucible Loader – Automatically positions up to 100 crucibles for continuous operation.
• Auto Sampler – Accommodates up to 22 sample positions for automated flux and sample loading.
• Auto Cleaner – Rotating brushes clean the upper and lower electrodes after each measurement for consistent accuracy.

• Superior Accuracy: High-precision measurements with 0.6 ppm detection limit.
• Proven NDIR Technology: Reliable Non-Dispersive Infrared (NDIR) gas detection.
• Advanced Cleaning Efficiency: Patented design reduces furnace cleaning frequency by half, supporting up to 200 measurements without maintenance.
• User-Friendly Interface: Intuitive software with One-Click Operation Mode for streamlined workflow.
• Touch-Panel Operation: Optional touch-screen interface for easy navigation and control.
• Enhanced Reliability: Automatic Diagnosis System ensures consistent performance and preventive maintenance.
• Versatile Applications: Suitable for analyzing metals, ceramics, semiconductors, minerals, batteries, catalysts, and more.
• Wide Measurement Range: Ideal for inorganic materials including steel, non-ferrous alloys, rare metals, cokes, and carbon black.
• Robust Design: Made in Japan with high durability and low maintenance requirements.
• Advanced Accessories: Includes crucible pre-heating unit, heating filter unit, and carrier gas purifier for superior analytical performance.

• High Accuracy – Accurate detection with 1.6 ppm carbon and 2 ppm sulfur sensitivity.
• Proven NDIR Technology – Ensures reliable gas detection with non-dispersive infrared sensors.
• Shortened Cycle Time – Speeds up the development and manufacturing process.
• Flexible Upgrades – Modular design allows users to expand functionality post-installation.
• User-Friendly Interface – Intuitive software with One-Click Operation Mode for efficient workflow.
• Enhanced Cleaning Efficiency – Reduced maintenance cycle, supporting up to 200 measurements without furnace cleaning.
• Versatile Applications – Suitable for analyzing metals, ceramics, semiconductors, minerals, batteries, catalysts, and more.
  • Optional Advanced Accessories:
    • Purifier Unit – Removes hydrocarbon impurities in carrier gas for ultra-low carbon concentration measurement.
    • Auto Sampler Unit – Holds up to 20 positions for continuous automated analysis.
    • Halogen Trap Unit – Eliminates halogen elements to prevent equipment corrosion.

• Precision Temperature Control – Variable heating range from 300°C to 1450°C with excellent temperature stability, supporting both low-temperature and high-temperature combustion analysis.
• Proven NDIR Technology – Ensures accurate gas detection with non-dispersive infrared sensors.
• Advanced Gas Collection Mode – Efficient combustion under high-pressure oxygen for precise analysis of high melting point materials.
• New Dust-Filter Mechanism – Collects dust from high-temperature combustion, preventing gas adsorption and ensuring highly sensitive analysis.
• High Throughput – Completes one measurement cycle in just 70 seconds, enabling analysis of up to 50 samples per hour.
• Versatile Applications – Suitable for steel, cokes, catalysts, non-ferrous alloys, lithium-ion battery materials, ceramics, minerals, chemicals, and electronic components.
• Enhanced Software & Usability – Intuitive software with self-diagnostic monitoring, troubleshooting navigation, and advanced operator assistance.
• User-Friendly Interface – Includes touch-panel, keyboard, and mouse control for efficient operation.
• Compliance with Global Standards – Certified to ASTM, ISO, and other international standards for accurate and reliable carbon/sulfur analysis.

• Ultra-Fast Depth Profiling – Achieves nanometric depth resolution with High Dynamic Detection (HDD), enabling depth profiling from the first nanometer down to 150 microns.
• Simultaneous Multi-Element Analysis – Full spectral coverage from 110 to 800 nm for simultaneous detection of H, O, C, N, Cl, and other elements.
• Patented Differential Interferometry Profiling (DiP) – Real-time crater depth and erosion rate measurement, providing accurate depth profiling with nanometric precision.
• RF and Pulsed RF Operation – Pulsed RF source allows higher instantaneous power without damaging fragile or heat-sensitive samples.
• High Sensitivity & Dynamic Range – High Dynamic Detectors (HDD) ensure superior sensitivity from sub-ppm to 100% concentration, eliminating matrix effects.
• Advanced UFS Mode – Ultra-Fast Sputtering Mode for polymeric and organic materials without damage, speeding up surface analysis.
• Wide Range of Applications – Ideal for thin films, multilayer coatings, semiconductors, photovoltaics, metallurgy, ceramics, and corrosion studies.
• Intuitive Quantum Software – Powerful data processing suite with Intelligent Quantification Models, real-time measurement display, and customizable reporting tools.
• Flexible Sample Handling – Large sample compartment accommodates odd-shaped samples with various anode diameters and accessories for complex samples.
• No Ultra-High Vacuum Required – Operates under low pressure plasma, reducing maintenance and operational costs.

Precision Thin-Film Deposition with Low Thermal Load and Multi-Material Co-Evaporation

• Contact Metallization in Microelectronics
• Lift-Off Processes in Nanofabrication
• Thin-Film Deposition of High-Purity Metals
• Research & Development in Surface Science
• UHV Coating Systems for Sensors, MEMS, and Semiconductors

High Shear Liquid Homogenizer for lipid nanoparticle preparation (up to 60,000 psi)

UltraGenizer is a laboratory ultra high pressure processing device. It is an electrically-driven and bench-top high shear homogenizer, which requires no compressed air or hydraulic oil to achieve maximum 4,200 bar (60,000 psi) operating pressure.

• Efficient – More uniform particle size distribution
• Flexible – Flow range: 12~35 L/hr, suitable for medium-scale production Continuous
• Stable – Working pressure up to 60,000 psi ensures stable homogenization
• Intelligent – PLC real-time monitoring of flow, temperature, and pressure
• Safe – Hygienic stainless steel and pharmaceutical-grade surface treatment
• Economical – Affordable price for genuine microfluidics technology
• Quiet – Operating noise below 60 dB does not affect personnel

Pressure:

Flow Rate:

Chamber:

Syringe Inlet&Outlet:

Option: Inlet Stainless Cylinder:

Option: Heat Exchanger:

Voltage:

Warranty:

Compliance:

• Portable hand driven homogenizer for concept testing up to 30,000 psi.
• Low-cost high pressure homogenizer
• Portable design delivers the light weight and small dimensions
• Convenient hand operation without the need for compressed gas
• A better choice for small-scale formulation screening
• An alternative to the high pressure homogenizers driven by compressed air

• Extra-wide measuring range, individually adjustable
• Variable measuring time – below 5 minutes
• High-performance camera with telecentric lenses
• Fast, simple operation via SOP control
• High-performance, integrated image analysis software ISS
• Extensive library for morphological analysis
• Useful tools for reliable quality monitoring
• Practical report generator for individual presentation of results
• Meets the requirements of ISO 13322-2 for Dynamic Image Analysis

With the use of the Eyecon2 – Direct Imaging Particle Analyzer, clients may better comprehend particle size and shape variation, which allows them to ascertain why a process is failing, why yield is decreasing, the cause of product variation, and if or how a process should be scaled up for commercial manufacture.

Eyecon2 has reduced cycle time and increased yields due to its use of Fluidised Bed Coating (e.g. Wurster), fluidised bed Granulation/Drying, Twin Screw Granulation, Dry Granamination/Roller Compaction, Extrusion Spheronisation, Milling, Blending, and product transfer process equipment. It uses direct imaging processed in real-time, with ellipses fitted to each particle’s boundary, shape and size reported back, highlighting variations. Continuous monitoring of processes critical quality attributes (CQAs) can be used to devise a data-driven control strategy, and non-product contact is used to ensure proper measurements every time.

• Renishaw’s inVia Raman microscope can incorporate fluorescence lifetime imaging microscopy (FLIM) to study material structure and composition.
• FLIM integrated with the inVia Raman microscope enables the creation of spatial images that represent the fluorescence lifetime.
• FLIM images can be correlated pixel by pixel with corresponding Raman images on the same coordinate system, allowing for direct correlation.
• FLIM imaging is faster than Raman imaging, making it useful for identifying regions of interest for subsequent Raman measurements.
• FLIM has applications in cell biology research, environmental sensing, monitoring molecular interactions, and identifying specific fluorophores.