テガサイエンス List of Products and Services

We would like to introduce our "Modular Vacuum Deposition System." In general vacuum systems, KF ports and CF ports are welded, and once the system is installed, the port configuration is fixed, making it impossible to change the chamber configuration. In the case of our product, all panels can be removed and replaced. Just like assembling blocks, it can be modified to various chamber configurations. 【Advantages (partial)】 ■ Compact design (can be installed on a laboratory bench) ■ Simple operability ■ Port configuration and number of ports can be changed ■ High expandability (addition of deposition sources and accessories) ■ Versatile use from simple coatings to multilayer films *For more details, please refer to the PDF document or feel free to contact us.

• Vacuum Equipment

The HEX system features a unique "modular structure." By exchanging the panels that make up each face of the hexagonal prism-shaped chamber, you can freely change the number and arrangement of ports. As a result, you can easily modify the configuration and expand functionality, much like assembling blocks, in response to changes in research direction. The HEX system is a compact and highly expandable vacuum deposition device that fills the gap between benchtop systems and UHV systems, based on a new concept. ◆ The "modular structure" allows for flexible changes to the system configuration ◆ Supports sputtering, resistance heating deposition, electron beam deposition, and organic deposition ◆ Supports simultaneous film formation from multiple sources ◆ Compatible with sample rotation, heating, and water cooling ◆ Can be equipped with a film thickness monitor ◆ Compact design with a footprint of 60cm x 60cm ◆ Excellent expandability and maintainability ◆ Compatible with glove boxes (for lithium-ion batteries, etc.) For more details, please refer to the catalog available for download as a PDF. If you have any questions, please feel free to contact us.

• Sputtering Equipment

This is a resistance heating evaporation source for the multi-purpose vacuum deposition device HEX/HEX-L. The resistance heating evaporation method is the most common vacuum deposition process. Materials are placed in a boat-type or crucible-type heating container, and by passing current through the heating container, resistance heat is generated to heat the materials. Once the temperature of the heating container rises sufficiently, the materials inside begin to evaporate. The deposition rate can be controlled by the current. The advantage of the resistance heating evaporation device is that it does not use process gases. Therefore, it operates at high vacuum levels, resulting in deposited films containing very few impurities. The TES source is fixed to the chamber with four butterfly nuts. Additionally, the cooling water piping is connected via quick-release connectors, allowing for quick replenishment of materials or replacement of boats/filaments. Up to five TES sources can be installed on the HEX, and up to six on the HEX-L. They can also be used in combination with the sputter source Fission, the electron beam evaporation source TAU, and the organic evaporation source ORCA.

• Sputtering Equipment

This is a sputtering source for the multi-purpose vacuum deposition device HEX/HEX-L. It can be used in DC mode when the target is a conductor and in RF mode when the target is an insulator. With a gas hood as standard equipment, it is possible to increase the pressure near the target surface while keeping the chamber pressure low during film formation. Quick-release connectors are used for the connections of cooling water piping and gas piping, allowing for easy installation and removal of the piping without the need for tools. The Fission source can be fixed to the chamber with four butterfly nuts, eliminating the need for tools during installation and removal. It also supports reactive sputtering, enabling the deposition of oxides and nitrides. Up to three deposition sources can be installed on the HEX and up to six on the HEX-L, allowing for the deposition of multilayer films and compound films.

• Sputtering Equipment

This is an electron beam evaporation source for the multi-purpose vacuum deposition device HEX/HEX-L. The TAU series is a "mini" electron beam evaporation source. By using TAU, the HEX system can be utilized as an electron beam evaporation device (EB evaporation device). The material is heated by applying high voltage to it and accelerating thermal electrons emitted from a filament located right next to it to collide with the material. Unlike large electron beam evaporation sources, it does not use electron beam deflection magnets. Each pocket of the TAU source is equipped with a "flux monitoring plate" as standard, which detects the slight ions contained in the vapor. The ion current value detected here is proportional to the deposition rate and is sensitive enough to precisely grow sub-monolayer films. The TAU-4, which is a simultaneous deposition model with four sources, has independent flux monitoring plates in each of the four pockets, allowing for monitoring of the deposition rate in each pocket during simultaneous deposition. The TAU source can deposit from either a rod or a crucible, depending on the material. We can suggest the optimal deposition method, so please feel free to contact us.

• Sputtering Equipment

This is an organic deposition source for the multi-purpose vacuum deposition device HEX/HEX-L. By installing ORCA, the HEX system can be used as an organic material deposition device. The ORCA source actively cools the crucible. The balance between heating and cooling achieves excellent temperature stability and control. The crucible is made of a material with high thermal conductivity, preventing the occurrence of hotspots that could adversely affect the deposition rate. Alumina and graphite liners are also available. The temperature of the crucible is measured by a K-type thermocouple, allowing for more accurate temperature measurements than conventional contact thermocouples. ORCA comes with a power supply unit and a PID controller optimized for low-temperature operation. The ORCA source can be used in combination with sputter sources, electron beam deposition sources, and resistance heating deposition sources. The area around the crucible is covered with a cooled protective cap, minimizing thermal interference from adjacent sources.

• Sputtering Equipment

This is a sample stage for the multi-purpose vacuum deposition device HEX/HEX-L. Choosing the correct sample stage is as important as selecting the right film formation method. The characteristics of the sample stage affect uniformity, morphology, and film composition. It accommodates samples with a maximum diameter of 4 inches for HEX and 6 inches for HEX-L. In addition to the standard fixed sample stage, rotating, rotating heated, and rotating water-cooled sample stages are available.

• Sputtering Equipment

The IR sensor card (infrared sensor card) is laminated and is the most common product in the IR sensor series. It emits visible light from the area where infrared is irradiated. The letter R (reflective) at the end of the model number indicates that the IR beam image is displayed only on the front side of the card (the irradiated side). The letter T (transmissive or translucent) at the end of the model number indicates that the IR beam image is displayed on both sides of the card. At the same infrared intensity, the R type card provides a clearer image due to the backing of reflected light. The phosphor layer is laminated between transparent plastics suitable for various near-infrared detection and imaging applications.

• Other inspection equipment and devices

The IR sensor seal (infrared sensor seal) is a thin, flexible sheet-type sensor. It emits visible light from the area where infrared light is irradiated. It can be cut into any shape and used by peeling off the backing to stick it in various locations. The phosphor is coated with adhesive on transparent Mylar. This sensor seal is not laminated. By attaching the sensor seal to reflective materials, it becomes a reflective sensor, allowing confirmation of light emission from the irradiated surface. When attached to transparent materials, it acts as a transmissive sensor, enabling light emission to be confirmed from both sides.

• Other inspection equipment and devices

The infrared position detection board is a sensor printed with crosshairs and circular sighting lines on a 3mm thick polycarbonate substrate. It emits visible light from the areas where infrared is irradiated, making it ideal for adjusting the optical axis of infrared. There are versions available in reflective (R) and transmissive (T). They can be secured to various fixtures using clamps, drilling, bolting, or other methods for installation on different equipment. Both versions have measurement lines marked in 2mm increments.

• Other inspection equipment and devices

The UV sensor card (ultraviolet sensor card) is laminated and is the most common product in the UV sensor series. It emits visible light from the areas exposed to ultraviolet radiation. The letter R (reflective) at the end of the model number indicates that the UV beam image is displayed only on the front side of the card (the irradiated side). The letter T (transmissive or translucent) at the end of the model number indicates that the UV beam image is displayed on both sides of the card. At the same ultraviolet intensity, the R-type card provides a clearer image due to the backing of reflected light. The surface is not laminated to prevent the blocking of ultraviolet rays.

• Other inspection equipment and devices

The UV sensor seal (ultraviolet sensor seal) is a thin, flexible sheet-type sensor. It emits visible light from the area exposed to ultraviolet radiation. It can be cut into any shape and used by peeling off the backing to stick it in various locations. The phosphor is coated with adhesive on a transparent Mylar. This sensor seal is not laminated. By adhering the sensor seal to reflective materials, it becomes a reflective-type sensor, allowing you to confirm the emission from the irradiated surface. When attached to transparent materials, it acts as a transmissive-type sensor, enabling confirmation of emission from both sides.

• Other inspection equipment and devices

The CS100 series performs strain measurements while applying adjustable tensile and compressive loads to samples in extremely low-temperature environments. It can be used in combination with scanning probe microscopy, confocal microscopy, X-ray scattering, neutron scattering, resistivity, magnetic susceptibility, and many other measurement techniques. *For more details, please download the PDF or feel free to contact us.*

• Other physicochemical equipment

The FC100 is the highest performance stress cell among the tensile and compression cells manufactured by Razorbill Instruments. The FC100 can apply very high uniaxial pressure and strain to samples, and it is designed to fit within a 1-inch bore, making it compatible with a wide range of commercial and custom-made cryostats. *For more details, please download the PDF or feel free to contact us.*

• Testing Equipment and Devices

By using the UC200, you can adjust the sample using stress and strain while performing independent measurements of force and displacement. This allows you to obtain rich information about the state of the sample within the cryostat and its mechanical properties at various temperatures. *For more details, please download the PDF or feel free to contact us.*

• Testing Equipment and Devices

The CS200T series can apply large uniaxial loads to samples while measuring strain in transmission mode (diffraction or scattering) in laboratory-based, synchrotron, or other beamline settings. Designed to fit within a 2-inch bore, the CS200T series is compatible with a wide range of commercial and custom-made cryostats and vacuum chambers. *For more details, please download the PDF or feel free to contact us.*

• Testing Equipment and Devices

The "RP100" is a 2-channel bipolar power supply designed to drive ultra-low temperature stress/strain cells from the "CS100 series," "CS200T series," and "FC100 series." It can be easily integrated into automated experiments. Additionally, by supplying ±200V across the 2 channels, it allows access to the full strain range of the cells. 【Specifications (excerpt)】 ■ Dimensions - Length: 180mm - Height: 65mm - Width: 185mm ■ Compatible models: CS100, CS110, CS120, CS130, CS200T, CS220T, FC100 ■ Number of channels: 2 channels (to supply power to a single stress/strain cell) and others *For more details, please download the PDF or feel free to contact us.

• Other machine elements

The Smartstream from Oxford Cryosystems is a spray cooling device that can cool down to 170K (-103°C) using dry air instead of liquid nitrogen or nitrogen gas. It requires very little maintenance and is the ideal solution for cooling small molecule crystals. *For more details, please download the PDF or feel free to contact us.*

• Other physicochemical equipment

The Cryostream 800 series from Oxford Cryosystems is a liquid nitrogen type spray cooling device capable of cooling down to 80K. It is the fourth generation of the Cryostream series from Oxford Cryosystems, following the 500, 600, and 700 models. *For more details, please download the PDF or feel free to contact us.*

• Other physicochemical equipment

Cobra is a spray cooling device that uses nitrogen gas instead of liquid nitrogen. It frees you from issues related to the storage, transportation, and safety of liquid nitrogen, as well as concerns about forgetting to refill the Dewar. Cobra can operate continuously for weeks or months without user intervention. Like the liquid nitrogen type Cryostream, it can cool down to 80K with a stability of 0.1K. *For more details, please download the PDF or feel free to contact us.*

• Other physicochemical equipment

The N-Helix from Oxford Cryosystems is a spray cryogenic device that can cool down to 28K using helium gas without the need for liquid helium. It is designed to operate economically with minimal gas consumption, allowing for approximately 16 to 20 hours of operation with a standard helium gas cylinder. By connecting multiple cylinders using a manifold, long-duration experiments are possible. *For more details, please download the PDF or feel free to contact us.*

• Other physicochemical equipment

The Chimera from Oxford Cryosystems is a high-performance temperature-variable chamber for powder X-ray diffraction, with a temperature range of 70K to 525K and a temperature stability of 0.1K. Unlike conventional cooling and heating chambers, the Chimera uses a single-stage GM cryocooler from Oxford Cryosystems, eliminating the need for liquid nitrogen. *For more details, please download the PDF or feel free to contact us.*

• Other physicochemical equipment

The PheniX from Oxford Cryosystems is a unique closed-cycle helium cryostat specially designed for powder diffraction at very low temperatures. PheniX is designed to be mounted on a vertical goniometer and comes with mounting plates for various powder systems. 【Key Features】 ■ Minimum cooling temperature of 12K without liquid refrigerants ■ Excellent temperature stability of 0.1K ■ Fast cooling times: 20K in 45 minutes, 12K in 60 minutes ■ Quick sample exchange with only 40 minutes of warm-up time *For more details, please download the PDF or feel free to contact us.

• Other physicochemical equipment

The Cryostream Compact from Oxford Cryosystems is a compact version of the Cryostream 800 series spray cooling device, optimized for cooling powder samples in capillaries. The use of a short nozzle allows for coaxial alignment of the nozzle and capillary, reducing the risk of ice formation. It cools down to 80K using liquid nitrogen. The consumption of liquid nitrogen is low, and it requires very little maintenance. *For more details, please download the PDF or feel free to contact us.*

• Other physicochemical equipment

The "800 Series" is a multi-port high-performance cooled CCD camera designed for large CCDs. By using multi-port technology, it achieves high frame rates with minimal noise and high-precision imaging. The cooling system in this series employs electronic cooling, reducing dark current by cooling the CCD to -60°C, optimizing the performance of the CCD, making it suitable for imaging in dark fields. 【Features】 ■ 16-bit AD conversion with the fastest pixel rate of 1 MHz ■ Low noise of 3e rms through correlated double sampling ■ Low dark current due to -60°C cooling ■ Compatible with various CCDs ■ Fiber window option *For more details, please download the PDF (English version) or feel free to contact us.

• Color camera

The "850 Series" is a multi-port high-performance cooled CCD camera equipped with the E2V CCD42-40. It reads the CCD through four multi-ports. It is particularly suitable for applications such as the digitization of streak tubes and photographic films, as well as high-throughput screening (microplate imaging). 【Features】 ■ Simultaneous reading from four CCD ports ■ 16-bit AD conversion with a maximum pixel rate of 1 MHz ■ Low noise of 3e rms through correlated double sampling ■ Low dark current due to -90°C cooling ■ Equipped with E2V CCD42-40 *For more details, please download the PDF (English version) or feel free to contact us.

• Color camera

The "1000 Series" is a compact-sized (92×92×168mm) cooling CCD camera that can accommodate a large CCD. With electronic cooling, the CCD can be cooled to -60°C, reducing dark current and optimizing the camera's performance. 【Features】 ■ High-performance 16-bit AD conversion with a pixel rate of 50kHz-1MHz ■ Low noise 3r rms through correlated double sampling ■ Low dark current due to -60°C cooling ■ Compatible with various CCDs ■ Fiber window option *For more details, please download the PDF (English version) or feel free to contact us.

• Color camera

The "1000 Series" is a cooling CCD camera specially designed to accommodate various large pixel, high-resolution CMOS sensors. The standard type "1600S" is equipped with a 40mm x 40mm sensor. For larger sensors, the "1600S EX" can accommodate a sensor of up to 60mm x 60mm. 【Features】 ■ Large pixel, front or back-illuminated, high QE sensor ■ Sensitive to visible light, UV light, X-rays, and electron beams ■ Radiation-resistant camera and sensor ■ Optical window, fiber taper, faceplate, or no window ■ Custom design *For more details, please download the PDF (English version) or feel free to contact us.

• Color camera

The RVT100 from Spectral Instruments is a qualitative measurement CMOS camera developed for monitoring in harsh environments where radiation-resistant performance and vacuum-compatible imaging systems are required. 【Features】 ■ Excellent CMOS camera capable of operating in high radiation environments with a total ionizing dose (TID) of up to 50kRad ■ Vacuum compatible: 1E-6Torr ■ 2MP or 4MP options (5.5μm square pixels) ■ Sensitivity range extendable to far ultraviolet and soft X-rays ■ Two types of epitaxy options (Standard or Thick) to improve QE in the near-infrared region ■ Available in monochrome or color, with or without microlenses ■ Easily extend existing SIImage software by controlling via a new HTTP server with gigabit Ethernet ■ Compliant with GigEVision *For more details, please download the PDF (English version) or feel free to contact us.

• Color camera

Celeritas is an innovative new DDD camera for 4D scanning transmission electron microscopy (4D STEM). Equipped with next-generation direct detection sensors, Celeritas far surpasses the frame rates of other 4D STEM detectors, providing at least four times the pixels and exceptional image quality. 4D STEM is a cutting-edge technology that uses the rich information from STEM to study the structure of materials. The 4D STEM camera captures complete electron diffraction patterns rather than a single average signal, allowing researchers to see subtle details in the data, visualize atoms that are difficult to see with conventional STEM, and extract important features such as crystal orientation, strain, electrical/magnetic information, and more. *For more details, please download the PDF (English version) or feel free to contact us.*

• Other physicochemical equipment

The DirectElectron "Apollo" is an innovative event-based DDD camera for cryo-electron microscopy. With next-generation sensors and camera architecture that perform electron counting through hardware, Apollo provides the highest performance throughput for cryo-electron microscopy. 【Features】 ■ Ultra-low noise and exceptional resolution for almost all beam brightness ■ Hardware electron counting through a combination of sensor technology and FPGA edge computing ■ 4k×4k (16.8 million) physical devices with an 8μm pixel size to maximize resolution ■ Exposure time reduced to one-tenth ■ Elegant, powerful, and user-friendly cryo EM ■ On-chip CDS minimizes noise and maximizes detection efficiency *For more details, please download the PDF (English version) or feel free to contact us.

• Other physicochemical equipment

Transmission electron microscopy (TEM) is a powerful technique for visualizing structures at nanometer or angstrom resolution. However, the performance of TEM lags significantly behind the theoretical limits based on the physics of electron scattering, especially when low-dose imaging is required. Multiple factors, including microscope equipment, dynamic sample processes (drift, beam-induced motion, charging, radiation damage, etc.), and inefficient electron detectors, contribute to the degradation of the resolution and signal-to-noise ratio (SNR) of TEM images. To overcome many of these obstacles, Direct Electron introduced the first large-pixel Direct Detection Device (DDD) in 2008. This represents the culmination of academic and industrial partnerships that have worked on sensor development over several generations since 2001. Direct Electron's innovative DDD sensor received the 2010 Microscopy Today Innovation Award.

• Other physicochemical equipment

DE-DirectView offers high sensitivity and excellent resolution, providing a cost-effective direct detection solution for biological and materials science applications. The DE-DirectView (4k×3k pixels) has a proven track record as the first commercially available direct detection camera. The 8th generation DE-DirectView features optimized 6.0μm pixels for excellent resolution (MTF) across a wide range of magnifications and exposure rates, integrated Faraday plates, and full-frame unbinned streaming at up to 40 frames per second. Users can also acquire data at 75fps using full-frame readout and 2x binning.

• Other physicochemical equipment

The DE-16 is equipped with the 10th generation of innovative DDD sensors, achieving industry-leading resolution and flexible, seamless display in a 4k x 4k field of view. The DE-16 features 6.5μm pixels optimized for excellent resolution (MTF) across a wide range of magnifications and exposure rates. It is our most versatile direct detection TEM camera, characterized by continuous streaming at up to 60 frames per second, enabling TEM experiments that were previously impossible with direct detectors. This flexibility and cutting-edge sensor technology provide industry-leading resolution for use in materials science or biology applications such as insitu, 4D STEM, electron diffraction, holography, DTEM, and EELS. The DE-16 offers speeds unmatched by other cameras in narrow areas and can be used for numerous applications on the same equipment. In addition to the integrated Faraday plate, users can access full-frame streaming at up to 92 frames per second or select smaller areas to read at significantly higher frame rates (128 x 128 @ 4,237 fps).

• Other physicochemical equipment

The DE-64 is the world's first and only true 8k×8k direct detector, featuring the widest field of view among direct detectors. Ideal for very large virus cryo-EM and cellular tomography, the DE-64 offers user-adjustable full-frame streaming at up to 46 frames per second, providing unparalleled performance in electron counting. With nearly four times the number of particles in a single image, its vast 67.1 megapixel field of view significantly reduces the number of images needed for each single particle experiment, greatly improving CTF fitting and enhancing 3D reconstruction. The DE-64 is equipped with 6.5μm pixels optimized for excellent resolution (MTF) across a wide range of magnifications and exposure rates, and includes an integrated Faraday plate. The innovative movie mode processing software enhances data quality through drift correction, motion correction per particle, radiation damage correction, and post-acquisition exposure settings. This enables direct detection of primary electrons, achieving a truly innovative advancement in TEM data quality. The clarity and speed of the DE-64 provide ultimate high-performance imaging for the most demanding projects and top-level research.

• Other physicochemical equipment

The LV-16 is the first and only commercially available direct detection camera for low voltage electron microscopes. It features the 10th generation of innovative direct detection device (DDD) sensors. In addition to dramatically superior resolution and a wider field of view, the LV-16 can also provide full-frame, unbinned streaming at up to 92 frames per second (fps) for motion correction or dynamics analysis. For even faster performance, users can acquire data at 281 fps using full-frame readout and 2× binning, significantly increasing the frame rate by reducing the size of the readout array. The LV-16 offers cutting-edge performance and unique features ideal for a wide range of low voltage electron microscope applications, including LEEM/PEEM. It enables direct detection of primary electrons in the range of 10 to 40 keV, representing an innovative advancement in data quality. Its improved resolution brings approximately eight times more information per image compared to MCP + CCD.

• Other physicochemical equipment

Raspix is a versatile radiation camera with excellent connectivity. It utilizes the state-of-the-art Timepix sensor developed at SERN. Raspix can be operated wirelessly via Wi-Fi for remote control, and it also allows for local control through a PC network. Due to its ability to identify the types and energies of individual particles, it can be used for radiation monitoring (α, β, γ), imaging, and tracking. This device can also be used for X-ray and neutron imaging. *Raspix is not a certified dosimeter. It can be used as an initial-level radiation field indicator and monitor capable of identifying types of radiation.

• Radiation detector

Crytur's scintillator screens are ideal for electronic beams, proton beams, low-energy X-rays, UV light, VUV, and XUV radiation. Scintillation crystals of YAG:Ce, LuAG:Ce, and YAP:Ce processed into thin plates are used as excellent imaging screens with high spatial resolution. Factors such as outstanding scintillation properties, uniformity, surface flatness, and resistance characteristics influence the quality of radiation images. *For more details, please download the PDF or feel free to contact us.*

• Electron microscope

The SX20 stop-flow device from Applied Photophysics is used to study the transient steady states of fast liquid-phase chemical and biochemical reactions initiated by the rapid mixing and stopping (stop-flow) of reactants. Spectroscopic probes such as absorbance and fluorescence are employed to observe the progress of the reaction by recording changes in the intensity of the spectral signal as a function of time. The general upper limit of reaction rates that can be measured using stop-flow spectroscopy is approximately 2000 s⁻¹. However, by utilizing the small volume cells adopted by the SX20, it becomes possible to measure reaction rates exceeding 3000 s⁻¹. *For more details, please download the PDF or feel free to contact us.*

• Other physicochemical equipment

The RX2000 from Applied Photophysics is a high-performance stopped-flow measurement accessory. By combining it with existing UV-Vis spectrophotometers, fluorometers, and circular dichroism dispersers, it enables the measurement of reactions that are over 1000 times faster compared to manual operations. With a dead time of just 8 milliseconds, the RX2000 can accommodate primary reaction rates exceeding 200 s^-1. ■ Adds stopped-flow measurement functionality to existing UV-Vis spectrophotometers and fluorometers ■ Sample temperature control mechanism with a digital temperature display ■ Capable of measuring reaction rates exceeding 200 s^-1 with an excellent dead time of 8 milliseconds ■ Stable measurements possible with gas pressure-driven accessories (optional) *For more details, please download the PDF or feel free to contact us.

• Other physicochemical equipment

The Chirascan circular dichroism spectrometer from Applied Photophysics is suitable for the study of all types and sizes of chiral molecules and has been featured in thousands of publications since its launch in 2005. Chirascan data, commonly used for the analysis of biomolecules, helps deepen the understanding of the properties, mechanisms, and interactions of biomolecules. ■ Detect changes in secondary and tertiary structures ■ Detect responses to thermal or chemical changes ■ Study the mechanisms of folding and unfolding ■ Expand functionality with accessories for Chirascan *For more details, please download the PDF or feel free to contact us.*

• Other physicochemical equipment

The Chirascan V100 from Applied Photophysics is a circular dichroism spectrometer that can improve productivity and detection sensitivity for all CD applications. It is ideal for applications where samples and time are extremely valuable, such as in biopharmaceutical research or development departments. ■ High-sensitivity detector ■ Maximizes information from minimal samples ■ Dramatically reduces measurement time for sufficient CD application data acquisition ■ Simultaneous measurement of CD, absorbance, and fluorescence data ■ Absolute CD acquisition across the entire wavelength range through multi-point calibration ■ Opens the door to structural analysis of existing and unknown proteins *For more details, please download the PDF or feel free to contact us.*

• Other physicochemical equipment

The Chirascan Q100, manufactured by Applied Photophysics, is the world's first and only ultra-sensitive, high-speed automatic CD spectrometer. This unique device significantly expands the range and scope of CD applications, increasing productivity by up to 50 times. Utilizing multidimensional load experiments, the Chirascan Q100 is a powerful new tool in protein formulation screening and biological identification research. *For more details, please download the PDF or feel free to contact us.*

• Other physicochemical equipment