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Two channels – Fast, sensitive, stable and modular. The SP-300 is a state-of-the-art research grade potentiostat featuring a range of 500 mA to 10 A , built-in EIS and high-end specifications such as 7 MHz max frequency, floating mode, analog filtering, built-in calibration board, and stability bandwidths. Home Products Electrochemistry Potentiostats SP-300 Premium SP-300 2 channels - a fast, sensitive, stable and modular electrochemical workstation. A state-of-the-art research grade potentiostat with a 500 mA to 10 A range , built-in EIS and many other high-end specifications Request a quote Two channels – Fast, sensitive, stable and modular. The SP-300 is a state-of-the-art research grade potentiostat featuring a range of 500 mA to 10 A , built-in EIS and high-end specifications such as 7 MHz max frequency, floating mode, analog filtering, built-in calibration board, and stability bandwidths. The SP-300 potentiostat’s modular chassis can integrate an optional high current/high voltage option board (up to 10 A & and up to 48 V), or alternatively, a second potentiostat board (either standard or EIS) to be used as a Bipotentiostat to carry out RRDE experiments. The instrument can also be used as a multiple user system as two different researchers can use each channel board independently. Voltage Compliance: ±12 V ; ±49 V with 1A/48V booster Control voltage: ± 10 V ; ±48 V with 1A/48V booster Voltage resolution: 1 µV on 60 mV range Current Current ranges: 500 mA to 10 nA (standard); down to 1 pA (Ultra Low Current) Maximum current: ±500 mA (standard); up to 120 A with four HCV-3048 Current resolution: 760 fA (standard) Low current: 6 ranges from 100 nA to 1 pA with resolution to 76 aA EIS Frequency range: 7 MHz (3%, 3°) down to 10 µHz; 3 MHz (1%, 1°) EIS quality indicators Advanced Up to 2 channels Connection 2,3,4,5 terminal lead 12 µs with EC-Lab Express; 1 µs with ARG option Floating mode Analog filtering Calibration board Full stability control mode (9 bandwidths) SP-300 Brochure Electrochemisty Instrument Catalog

The Video Microscope System (Model VCAM3) is a long working distance video microscope which allows users to view the distance between probe tip and sample surface in the scanning probe electrochemistry techniques available on the M470 and SECM150. Home Products Electrochemistry SECM Accessories VCAM3 Scanning Product Accessories VCAM3 Long Working Distance Video Microscope. Accessory designed to allow users to view the distance between probe tip & sample surface Request a quote The Video Microscope System (Model VCAM3) is a long working distance video microscope which allows users to view the distance between probe tip and sample surface in the scanning probe electrochemistry techniques available on the M470 and SECM150 . The use of the VCAM3 aids with probe positioning during experimental setup, avoiding unnecessary damage to the probe or sample, and simplifies probe approach. It can also be used to view the sample throughout the experiment. The VCAM3 video microscope system is supplied as a complete set. It is provided with an XYZ adjustable stand to allow the region of interest to be easily focused on. It is also supplied with the compatible LCD monitor and all necessary cables to couple with the video microscope. Electrochemistry Accessories Catalog VCAM3 Specifications Working Distance 108 mm Field of view at min. magnification 8.6 mm Field of view at max. magnification 1.4 mm

EasyPET is a benchtop entry-level PET scanner, developed in partnership with the University of Aveiro, designed for education, training and basic molecular imaging research, offering a simple, intuitive and cost-effective system. Home Products Nuclear Physics Equipment RI.TE easyPET EasyPET is a benchtop entry-level PET scanner, developed in partnership with the University of Aveiro, designed for education, training and basic molecular imaging research, offering a simple, intuitive and cost-effective system. PET is a major in vivo nuclear imaging modality that provides functional information of the physiological processes of organs and tissues. PET has a unique role in oncology, neurology and cardiology due to its capability of disease detection, staging and therapy effect monitoring. PET, combined with morphological imaging through CT or MRI, has a recognized superiority over all other imaging modalities. Product Range RI.TE easyPET Request a quote Advantages: Benchtop, portable PET scanner State-of-the-art detectors Adjustable FOV and specific ROI scanning for enhanced sensitivity, contrast and detail Capacity to eliminate parallax errors High performance, low cost Real-time imaging All-in-one, user-friendly software Education & training dedicated resources Applications: Practical PET imaging laboratory classes Training of PET procedures such as calibrations, image acquisition Protocols, static/dynamic studies PET image reconstruction (2D/3D) and analysis Biodistribution research studies EasyPET technology: The proprietary image acquisition method of easyPET is based on the intelligent rotation movement of detector blocks that allows reaching super high spatial resolution PET imaging with a reduced number of detection cells. With the best price-performance on the market, easyPET is the first truly affordable PET scanner for Universities and Health Schools. Learning by doing can finally become general practice in PET imaging, a valuable resource for students and technologists of nuclear medicine, radiopharmacy, medical imaging, biomedical engineering, etc. Training Brochure

The bSCAN is delivered with a software package that allows performing radiochemical and radionuclidic purity analysis in an easy and natural way. Home Products Nuclear Physics Equipment CAEN SyS bSCAN Product Overview bSCAN - Thin Layer Radio-Chromatography The bSCAN is delivered with a software package that allows performing radiochemical and radionuclidic purity analysis in an easy and natural way. Radiochemical and radionuclidic purity analysis with a single instrument Implements radio-TLC and energy spectrum acquisition and analysis Compact instrument with a size of (WxHxD) 38 cm x 35 cm x 25 cm Uses a 1x1" NaI(Tl) detector properly shielded against background radiation with two sets of changeable collimators Variable and automatic scanning speeds Modern and intuitive software for performing both analysis and instrument setup Automatic saving of the spectrum for convenient latter review Automatic energy spectrum analysis with nuclide identification Software settings can be changed to satisfy user preferences Colorful and customizable measurement reports Request a quote The bSCAN is a compact and advanced instrument designed to perform Thin-Layer Radio-Chromatography (TLC) - an analytical technique that allows the identification and quantization of different compounds in a radioactive mixture. Particularly, Radio TLC is a well established method in Nuclear Medicine laboratories for fast and accurate assessments in quality control (QC) of the radioactive pharmaceuticals used in nuclear medicine procedures. The technique is also widely used by the labeling laboratories and radiopharmaceutical producers. The in-vivo behavior of the radiopharmaceuticals is dependent upon their quality, which today demands high standards of “radio nuclidic”, “radiochemical” and “chemical purity” or particle sizing of the suspensions in the labeled compound. Radiopharmaceuticals must comply with both: radiation and pharmaceutical standards to warranty their efficacious use, the imaging quality while minimizing the radiation hazard to the patients. Using this single instrument, laboratories can test for two parameters of the QA\QC process, namely the radiochemical and radio nuclidic purity. The bSCAN comes with an advanced, intuitive and modern software. The software guides the user to perform both analyses in an easy and natural way. bSCAN instrument is compact in size and contains state-of-the art components, like a fully-digital multichannel-analyzer (MCA) and a well-shielded NaI(Tl) detector, which provides superior energy resolution and therefore better radionuclide identification. The instrument uses USB digital data communication with the PC. bSCAN Specifications

An impedance analyzer with the features and specifications necessary for working on a the broad range of applications in the field of materials research. Home Products Electrochemistry Materials Research MTZ-35 Impedance Analyzers MTZ-35 An advanced, comprehensive solution for the electrical characterization of materials. An impedance analyzer with the features and specifications necessary for working on a the broad range of applications in the field of materials research. Request a quote An advanced, comprehensive solution for the electrical characterization of materials. A modern materials science lab faces challenging measurements every day, and impedance spectroscopy is a primary tool in materials research enabling the characterization of the electrical properties of materials. With a wide frequency range (10 µHz – 35 MHz) and high-levels of accuracy (0.1% amplitude, 0.05% phase) the BioLogic MTZ-35 impedance analyzer has been designed to tackle even the most difficult measurements required by materials science. The MTZ-35 is the key instrument in integrated solutions for the electrical characterization of materials. These solutions, dedicated to wide-ranging applications and temperature ranges, consist of the MTZ-35 impedance analyzer, a temperature control unit, a sample holder and MT-lab software. The MT-Lab interface allows the control of many temperature control systems (HTF-1100 furnace, ITS, etc.) over a wide temperature range (from -40 to 1100°C). It also allows impedance measurement and the modeling of EIS data with equivalent circuits. Many sample holders (CESH, HTSH-1100, HTCC) covering various materials types (polymers, ceramics, composites, ionic liquids, gels, etc) are compatible with the MTZ-35. MTZ-35 Specifications Generator Frequency Range: 10 μHz to 35 MHz Voltage range DC: ±100 μV to ±10 V Voltage range AC: 100 μV to 10 V Measurement Ranges Inductance 10 nH to 10 kH Capacitance 1 pF to 1000 μF Resistance 1 mΩ to 500 MΩ Basic Accuracy 0.1% MTZ-35 Brochure Material Testing Catalog

As a leader in this field, BioLogic has over 30 years of experience of developing equipment designed to give researchers a cutting-edge. Originally dedicated to rapid kinetics measurements, BioLogic now also develops, integrates and manufactures a wide range of instrumentation for steady-state spectroscopy including spectropolarimeters. Active Technologies Home Products Active Technologies Arbitrary Waveform Generators Waveform Generator Range Arbitrary Waveform Generators 2, 4 AND 8 CHANNEL ARBITRARY WAVEFORM GENERATORS Active Technologies Arbitrary Waveform Generators meet the demand of today’s engineers offering a wide variety of signal types: analog digital mixed-signal multi-channel applications can be covered by Active Technologies instruments. As a result the AWG (Arbitrary Waveform Generator) and AFG (Arbitrary Function Generator) family helps you to generate with confidence waveforms of almost any imaginable shape: complex signals like digital modulations RF stimuli for functional and performance tests radar simulation optical communication electronic warfare Quantum Computing can be created through an easy to use interface. The modular structure of AWGs allows to build systems with 2, 4, 8, 16 or 32 channels and sample rate from 250 Ms/s to 6.16 Gs/s combined with 14 and 16 bit resolution. Moreover the combination with Digital output Channels (up to 32 digital channel per instrument) make each instrument a real MSG (Mixed Signal Generator ) solution. Arbitrary Waveform Generators – Key Features Analog, Digital and Mixed Signal Generation RF & Wireless, Aerospace & Defense, Quantum Computing, Radar & Lidar, Advanced Research, Educational, Real-World signals generation High Speed capabilities combined with High Voltage and High Resolution solutions Extremely Easy To Use User Interface SELECT A MODEL BELOW FOR FURTHER INFORMATION Arb Rider AWG–5000 Arb Rider AWG-4000 Arb Rider AWG-2000 AWG-1102 / 1104 What is a signal generator used for? The signal generators are used to test electronic devices and systems. They are the reference instrumentation family for applications that require the reproduction of real life signals such as Quantum Computing, RF and Wireless applications, IQ modulation, radar and lidar testing, semiconductor test, advance research in electronic, chemistry and physics, aerospace and defense applications. What are the types of signal generators? They are: AFG Arbitrary Function Generators, AWG Arbitrary Waveform Generators , DPG Digital Pattern Generators, SPG Serial Data Pattern Generators, Pulse Generators and Pulse Pattern Generators . Arb Rider AWG-2000 Arb Rider AWG-4022 Arb Rider AWG-4010 FOR EDIT What is an arbitrary waveform generator used for? The AWG’s ability is to create virtually any type of waveform with high precision and accuracy. AWG is the reference instrumentation family for applications that require the reproduction of real life signals such as Quantum Computing, RF and Wireless applications, IQ modulation, radar and lidar testing, semiconductor test, advance research in electronic, chemistry and physics, aerospace and defense applications. What is the difference between arbitrary waveform and function generator? The Arbitrary Waveform Generator is a sophisticated playback system that creates waveforms based on stored digitala data. The AWG’s ability is to create virtually any type of waveform with high precision and accuracy. The Arbitrary Function Generator is based on DDS (Direct Digital Synthesis) and produce the most common test signals used in laboratories and design departments. The AFG Function Generator delivers excellent frequency agility and modulation. What are the parameters of arbitrary waveform generator? The main parameters are: sample rate, memory depth or record length, timing or horizontal resolution, vertical resolution,analog bandwidth, output stage, number of channels, digital channels. What is an arbitrary function generator? The Arbitrary Function Generator is based on DDS (Direct Digital Synthesis) technique and it produces the most common test signals used in laboratories and design departments. The AFG Function Generator delivers excellent frequency agility and modulation. What is a waveform generator used for? AWG and AFG are are the reference instrumentation for applications that require the reproduction of real life signals such as Quantum Computing, RF and Wireless applications, IQ modulation, radar and lidar testing, semiconductor test, advance research in electronic, chemistry and physics, aerospace and defense applications. Do I need a waveform generator? The Arbitrary Waveform Generator can address a wide range of applications from Quantum Computing to education. How do you make waveforms? The waveforms can be created by using the AT Waveform Editor tool that it is a software able to create any kind of analog and digital waveforms. The waveforms can also be created using a third party software and imported in txt or zip format. What does a waveform generator do? The Arbitrary Waveform Generator is a sophisticated playback system that creates waveforms based on stored digitala data. The AWG’s ability is to create virtually any type of waveform with high precision and accuracy. The Arbitrary Function Generator is based on DDS (Direct Digital Synthesis) and produce the most common test signals used in laboratories and design departments. The AFG Function Generator delivers excellent frequency agility and modulation. What are the types of signal generators? They are: AFG Arbitrary Function Generators, AWG Arbitrary Waveform Generators , DPG Digital Pattern Generators, SPG Serial Data Pattern Generators, Pulse Generators and Pulse Pattern Generators . Which waveform is produced by generator? The Arbitrary Waveform Generator cab create virtually any type of waveform and replicate real-world signals.

Microvolume quench flow. A unique design enables the QFM-4000 to trap and identify reaction intermediates. The device is also commonly used for analysing enzymatic reactionq, DNA cleavage or single turnover reactions. Home Products Kinetics and Spectroscopy QFM-4000 Request a quote Product Overview QFM-4000 Microvolume quench flow. A unique design enables the QFM-4000 to trap and identify reaction intermediates. The device is also commonly used for analysing enzymatic reactionq, DNA cleavage or single turnover reactions. Quench-Flow. Quench-flow is a kinetic technique where a reaction is initiated by mixing two samples. The reaction ages in a delay line before being stopped after a user-defined ageing time, by mixing with a solution called the quencher. The aged solution is then collected at the exit of the quench-flow and is analyzed by external analytical methods. Quench-flow is generally used to trap and identify reaction intermediates and to understand complex reaction mechanisms. It is also widely used for analyzing enzymatic reactions, DNA cleavage or single turnover reactions. Microvolume quench-flow. Microvolume operation is now an absolute requirement for most quench-flow users as samples become increasingly valuable. The QFM-4000 is designed to minimize all internal volumes. Not a single drop of precious material is lost in the priming lines. The sub-microvolume precision of the motor drives ensures a minimum sample consumption. Only 10µl of sample is required for a successful experiment, and a complete kinetics run dataset can be obtained starting from a 200µl stock. QFM-4000 brochure

An extremely flexible sample accommodation platform, designed to take as wide a range of sample configurations as possible to meet the needs of the end user. The design of the Environmental TriCell™ system means it can be used with Scanning Kelvin Probe (SKP), Localized Electrochemical Impedance Spectroscopy (LEIS), Scanning Vibrating Electrode Technique (SVET), and Scanning Droplet Cell (SDC) measurements, on BioLogic’s modular M470 scanning electrochemical workstation. Home Products Electrochemistry SECM Accessories µTriCell™ Request a quote Cells µTriCell™ Electrochemical cell to be used with Scanning Electrochemical Microscopy on the M470 The µTriCell™ incorporates an extremely flexible sample accommodation platform to meet the needs of the end user. It has been designed to take various sample configurations whilst still maintaining easy electrical connections for SECM measurements. The µTriCellTM has a small volume to reduce the amount electrolyte required for scanning probe electrochemistry experiments. It still provides the user with a clear view of the probe and sample for easy experimental setup. The integrated tilt correction allows users to adjust the position of samples without moving or adjusting the scanning head, helping to ensure the strongest signal throughout a SECM experiment. The µTriCellTM is made from a PEEK cell body with quartz glass viewing window which allows viewing access for the video microscopy system VCAM3 It is mounted on a support pillar with an M6 fixing screw end, which can be screwed directly into the M470 optical table or fixed into a baseplate with a standard optical grid, to provide a high level of experiment flexibility. The cell offers the following features: Easy sample access and connection External level adjustment. Accommodation of a wide range of samples (32 mm and non-standard options). Platinum counter electrode and a Ag/AgCl reference electrode. O-ring seals – Fluoro-elastomer Viton. The µTriCell™ is supplied as a complete kit consisting of the main µTriCell body and mounting post, 32 PEEK mm blanks and area reducing blanks, O-rings and connection leads. It also includes reference electrodes and counter electrode. Replacement spares and consumables for the cell are available. The µTriCellTM PTFE body is compatible with the ic-SECM cell assembly. The µTriCellTM mounting plate is compatible for use with the Foil Cell . Electrochemistry Accessories Catalog SKP Specifications Cell diameter: 26 mm Cell height: 15.5 mm Cell volume: 7 mL Cell body: PEEK

Cryo stopped-flow covers temperature ranges below -15°C where traditional stopped-flow experiments are limited. Cryo stopped-flow instruments are now well-established systems in inorganic and bio-inorganic chemistry laboratories where they have proved to be efficient tools used to identify reaction intermediates and define reaction mechanisms. Home Products Kinetics and Spectroscopy Cryogenic Stopped Flow Product Overview Cryogenic Stopped Flow Uses cryogenics to slow down rapid kinetics processes. Cryo stopped-flow covers temperature ranges below -15°C where traditional stopped-flow experiments are limited. Cryo stopped-flow instruments are now well-established systems in inorganic and bio-inorganic chemistry laboratories where they have proved to be efficient tools used to identify reaction intermediates and define reaction mechanisms. Request a quote Conventional stopped-flow systems are usually limited to -15°C/-20°C because of the materials used in valves and driving syringes. However, some chemical reactions are still too fast to be observed at these sub-zero temperatures. One solution to elucidate the reaction mechanism is to slow down the reaction. By reducing the reaction temperature to -90°C the reaction becomes about 10,000 times slower when compared to ambient temperature, meaning that some events become observable. Cryo stopped-flow covers temperature ranges below -15°C where traditional stopped-flow experiments are limited. Cryo stopped-flow instruments are now well-established systems in inorganic and bio-inorganic chemistry laboratories where they have proved to be efficient tools used to identify reaction intermediates and define reaction mechanisms. Cryogenic option down to -90°C. The cryogenic option extends the range of Bio-Logic stopped-flow to -90°C. It is available for single and double mixing applications. The mixers, the cuvette and the transfer lines are immersed in a cryo-solvent. Two cooling methods are available for the cryo bath: using liquid N2 circulation or using a commercial cryostat. Temperature dependence studies can be carried out from -90°C to +20°C without any reconfiguration. The mixing chamber is connected to the detection system using fiber optics and spectra can be recorded every 400 µs using our fast diode array detectors to fully benefit from the 2ms dead time. Stopped-flow accessories

Circular dichroism spectrometer MOS500. ​ CD spectropolarimeter specifically optimized for both steady state and rapid kinetics applications. The CD spectrometer guarantees excellent performance: sensitivity, precision, speed and modularity from far-UV to NIR region. Home Products Kinetics and Spectroscopy MOS-500 Product Overview MOS-500 Circular dichroism spectrometer MOS500. CD spectropolarimeter specifically optimized for both steady state and rapid kinetics applications. The CD spectrometer guarantees excellent performance: sensitivity, precision, speed and modularity from far-UV to NIR region. Request a quote Circular Dichroism. Circular Dichroism (CD) is by far the most commonly employed chiroptical technique for the characterization of biomolecules and the analysis of chiral substances. For example, the far-UV Circular Dichroism spectrum of proteins can reveal important characteristics relating to their secondary structure such as the percentage of alpha helix, beta-sheet or beta-turns conformation, when near-UV, will provide information about the direct surrounding environment of the chiral chromophores. Visible and NIR-CD spectroscopy is a useful technique to study metal-protein interactions and to resolve individual d–d electronic transitions, but has also proved to be a highly performant tool for enantiomeric excess determination in asymmetric synthesis. A modern spectropolarimeter. The MOS-500 is a spectropolarimeter optimized for steady state and rapid kinetics applications. The circular dichroism spectrometer delivers outstanding performance in sensitivity, precision, speed and modularity from far-UV to NIR region. Optics and technology have been chosen to ensure that no wavelength range is discriminated. The MOS-500 uses an innovative patented three stage wavelength selection system to bypass the limitation of prism-based monochromators. The Biokine software platform also ensures a great user-experience and provides high-performance tools for the analysis of chemical and thermal denaturation of proteins. MOS-500 brochure

The SP-200 is a research-grade, potentiostat that does not substitute value for quality. With the 100 fA accuracy ultra-low current option, it is the perfect instrument for any electrochemistry application but in particular corrosion. The SP-200 comprehensive specification features a floating mode, analog filtering and a built-in calibration board. Home Products Electrochemistry Potentiostats SP-200 Request a quote Premium SP-200 Single channel, Transportable potentiostat. The perfect electrochemical workstation for corrosion with the 100 fA accuracy ultra-low option The SP-200 is a research-grade, potentiostat that does not substitute value for quality. With the 100 fA accuracy ultra-low current option, it is the perfect instrument for any electrochemistry application but in particular corrosion. The SP-200 comprehensive specification features a floating mode, analog filtering and a built-in calibration board. Additionally, the SP-200 can be purchased with a standard DC potentiostat and EIS option. An Ultra-Low Current (ULC) option is also available. The compact footprint of the SP-200 makes it perfect for taking measurements in-situ. It is especially relevant to fields relating to electro analysis and corrosion. SP-200 Specifications Voltage Compliance: ±12 V; [0; 48] V with HCV-3048 Control voltage: ±10 V ; [0; 48] V with HCV-3048 Voltage resolution: 1 µV on 60 mV range Current Current ranges: 500 mA to 10 nA (standard); down to 1 pA (Ultra Low Current) Maximum current: ±500 mA (standard); up to 120 A with four HCV-3048 Current resolution: 760 fA (standard) ; down to 76 aA (Ultra Low Current) EIS Frequency range: 7 MHz (3%, 3°) down to 10 µHz;; 3 MHz (1%, 1°) EIS quality indicators Advanced Connection 2,3,4,5 terminal lead Best acquisition time: 12 µs with EC-Lab Express; 1 µs with ARG option Floating mode Analog filtering Calibration board Full stability control mode (9 bandwidths) SP-200 Brochure Electrochemisty Instrument Catalog

The Shallow µTriCell™ has been designed for constant-distance scanning probe measurements, like the Intermittent Contact – Scanning ElectroChemical Microscopy (ic-SECM) technique, while still remaining ideal for use with constant height scanning probe measurements, like SECM. Home Products Electrochemistry SECM Accessories Shallow µTriCell™ Cells Shallow µTriCell™ Low volume electrochemical cell for Scanning Electrochemical Microscopy on the M470 platform Request a quote The Shallow µTriCell™ has been designed for constant-distance scanning probe measurements, like the Intermittent Contact – Scanning ElectroChemical Microscopy (ic-SECM) technique, while still remaining ideal for use with constant height scanning probe measurements, like SECM. It incorporates an extremely flexible sample accommodation platform, designed to take various sample configurations. It mounts conveniently onto the optical table or into a baseplate with a standard optical grid, to maintain a high degree of experimental flexibility. The Shallow µTriCell™ incorporates a unique levelling device to adjust the position of a sample without moving or adjusting the scanning head. This ensures the sample is level during the SECM scan, to achieve the strongest signal throughout. The Shallow µTriCell™ is composed of a PEEK body for a high degree of chemical compatibility. The provision of a quartz window in the cell allows the positioning of the probe to be monitored with the VCAM3 zoom-lens video microscope system. This aids in the experimental setup by allowing the relative probe to sample the position to be viewed. The Shallow µTriCell™ for the M470 Scanning Electrochemical Workstations can be used in a variety of practical applications including: corrosion monitoring development of electrochemical sensors screening of fuel cell materials measurement of solid state electrolytes The Shallow µ TriCellTM PTFE body is compatible with the ic-SECM cell assembly. The µTriCellTM mounting plate is compatible for use with the Foil Cell . The Shallow µTriCell™ is supplied as a complete kit consisting of the main µTriCell body, 32 mm blanks, O-rings and connection leads. It also includes reference electrodes and counter electrode. Replacement spares and consumables for the cell are available. Electrochemistry Accessories Catalog Shallow µTriCell™ Dimensions Cell diameter: 44 mm Cell height 5: mm Cell volume: 6 mL Cell body: PEEK