Analytical instruments are pivotal in driving quality, research, and innovation across diverse industries, from pharmaceuticals and chemicals to food and environmental studies. These tools specialize in analyzing and characterizing materials, offering unparalleled precision, accuracy, and speed. Notably, they ensure products meet rigorous standards, facilitate groundbreaking research, and serve as the backbone for advancements in sectors like medicine, material science, and more.
Exapro, a distinguished marketplace for used industrial machinery, offers a curated selection of these analytical instruments. Ranging in price from €9,000 to €25,000, businesses can secure quality machinery that fits their budgetary constraints without compromising on functionality. With detailed listings, potential buyers can gauge the worth of an instrument, ensuring value for money.
Manufacturers like Agilent Technologies, Thermo Fisher Scientific, and Shimadzu, renowned for their excellence, feature prominently on Exapro's platform. Whether you're a startup delving into research or an established enterprise aiming for cost-effective equipment upgrades, Exapro ensures you access top-tier analytical instruments without breaking the bank.
Showing 1 - 20 out of 475
Year: 2019
Practically new dimensional measuring devices (only used 15x) with Z probing optionYear: 2001
Scanning electron microscope with the following characteristics: New purchase price: €76k Performance : - Resolution: 3.5 nm @ 30kV - Magnification: 18x to 300000x -Acceleration voltage: 0.5 to 30 kV - Image digitization up to 1280x960x8bits - Turbo-molecular pump Power supply : -220 V, 50Hz, 3kVA ground (without neutral) -Temperature: 20 +/- 5°C -Humidity: less than 60%. -No cooling required …Year: 2015
Niton XRF equipment, model XL3t 980 GOOLD+. the spectrometer is practically new as it has been completely overhauled and recalibrated by the parent company in November 2023, changing the defective/worn parts which are under warranty for another six months or a year and which has the double metal/alloy -soil/rock setting. (each setting is worth 3000 euros) Overhauled by the manufacturer …Year: 2022
HANNA INSTRUMENTS VISIBLE LABORATORY SPECTROPHOTOMETER IRIS HI801 340-900 nm, 230V mint condition (1 single use) : Supplied with 96 factory methods : Up to 100 user-programmable methods Upgradeable instrument software, update via USB port/key : Automatic reception and detection of 5 cuvette types (Ø 13 mm tube cuvette, Ø 16 mm round cuvette, 22 mm round cuvette, 10 mm square …Year: 2011
Brand: HIROX Model: SH3000 Year of manufacture: 2011 Purchase price: 110 k€ Year of purchase: 2011 Description: Compact, powerful and easily transportable, this tabletop SEM bridges the gap between the world of optical and scanning electron microscopy. As easy to use as a video camera, the Hirox SEM is accessible to all. The intuitive graphical interface and its wide magnification …Year: 2013
Equipment for speciation of metals, HPLC (Flexar) coupled to inductively induced plasma mass spectrometry (ICP-MS). The current state of the equipment is functional, it is in perfect condition. We also have some consumables that we would deliver with the equipment, torches, coils and some tubing and rubber bands. The time of use of the equipment from its acquisition in 2013 …Year: 2010
Nikon Eclipse 80i trinocular microscope with camera and motorized stage. Tilting oculars 10x 25 4 Fluorine planar objectives x4 x10 x20 x40Year: 2020
- Model: KingFisher Flex 711. - Automated DNA and RND extraction and analysis unit. - YOM: 2020. - Like new. Last maintenance: March 2022.Year: 2021
Manufacturer Angelantoni ACS Model DY 110 Operating condition Used (as good as new) Year of construction2021 Value added tax Deductible DescriptionClimate test chamber ACS DY110 - Year of construction 2021 - Acquisition January 2022 - approx. 500 operating hours - Sale due to completion of product development / testing Technical data: - Test chamber dimensions: 548 x 447 x 447 …Year: 2014
Measurement of dynamic and kinematic viscosity R version - for typical viscosities PPR - a convenient quick spindle clamping system without screwing. Manufacturer: FUNGILAB Serial number: PRER402011 Year of production / purchase: 2014 Rotational viscometer Premium R PPR: Device with a set of measuring spindles made of ALSI316 steel, stand, spindle stand, USB cable. All in a protective case. As …Year: ~ 1985
Old machine (1980s) used until 2023 to study ancient materials (archaeology, objets d'art) in a small provincial laboratory. Put up for sale following the purchase of a second-hand, fully computerised Hirox. This Stereoscan 240 SEM was monitored and regularly maintained by a retired Zeiss professional. A technician with a good knowledge of electronics (semi-computerised device) could carry out an overhaul …Year:
GCMS Bruker 436-GC Scion with PC full set (Dell screen 19" + Optiplex 9020 + keyboard) with vacuum Pump Pfeiffer Duo line, includes: Agilent 6890 Series (GC) 5973 Network (MS) Description: Bruker Chromatographe en phase gazeuse Scion 436-GC. Avec échantillonneur automatique Agilent CP-8400. Détecteur FID. écran tactile. Pression d'entrée air, N2, He, AR : 10 bar max. Pression d'entrée H2 …Year: 2016
2950D-1: 2950 analyzer with 2 enzyme modules (up to 4 metabolites) Sample volume aspirated: 10 to 50 µl depending on the chemistries Analysis time: 60 seconds Precision: metabolite-dependent, typically CV < 2% Linearity: ± 5% of the calibrated value at maximum Sampling flow for YSI2900M analyzer: 100 – 2500 µl/minute (± 8% at ± 6 PSI) Device used very little …Year: 2017
Biosan chamber The chamber was purchased in 2017, efficient, not used. The UVC/T-M-AR is a chamber designed for clean work with DNA samples. The chamber provides protection against contamination. The UVC/T-M-AR model is a table-top model, made of a metal frame and a stainless steel work surface. The chamber is equipped with an open UV lamp installed in the upper …Year: 2020
BIO-RAD real-time PCR system CFX96 optical reaction module C1000 Touch thermal cycler This six-channel system combines advanced optical technology with precise thermal control.Year: 2006
Ampoule Inspection Machine 2006 EISAI AIM 288. Format parts: 1,2,5 and 10 ml. ampoules;Year: 2004
Leak detection machine for ampoules 2004 BOSCH KLD 1042. Format parts: 1,2,5 and 10 ml. ampoules;Year: 2008
ICP OES Perkin Elmer Optima 7000 DV The Optima™ 7000 DV ICP-OES system brings advanced technology to laboratories requiring flexibility and excellent analytical performance for varied and moderate sample loads. Auto samplerYear: 2009
Ametek APOLLO X Analytical instrument System Components The system is comprised of: o A 10 mm2 or 30 mm2 detecting unit assembly. o A DPP3 PCB fitted inside the PC workstation (or EDAM analyzer) that amplifies, digitizes and processes the detector signal. o A support box to provide power and the ThermoElectric Cooler (TEC) controls to the detector. o A …Year: 2021
Fully automatic biochemical analyzer. It is used to quantitatively analyze samples from different matrices (serum, plasma, urine, cerebrospinal fluid, beverages, cultures,...). 1. Sample of 49 positions. 2. 56 positions reagent. 3. 120 reaction cuvettes. 4, 200 tests per hour.In the bustling world of pharmaceutical and chemical manufacturing, the precision and efficiency of your operations are paramount. It's here that analytical instruments come to the forefront, playing a pivotal role in ensuring product quality, safety, and compliance with stringent industry regulations. If you're familiar with the likes of chromatographs, spectrometers, or calorimeters, then you know the invaluable assistance they offer in research, development, and quality assurance.
Unveiling Analytical Instruments for the Pharmaceutical and Chemical Industries
Analytical instruments in the pharmaceutical and chemical sectors are designed to analyse and characterise the composition and structure of different materials. They assist professionals in detecting and measuring physical properties, chemical reactions, and other essential parameters with the utmost precision. Such instruments are indispensable for laboratories and production sites, ensuring that products meet the high standards expected in these industries.
However, investing in new equipment often comes with a hefty price tag. This is where Exapro, a leading marketplace for used industrial machinery, enters the scene, bridging the gap between affordability and quality.
Why Choose Exapro?
Exapro isn’t merely a platform; it's an experience. For professionals looking to upgrade their facilities, Exapro offers a range of used machinery, including top-of-the-line analytical instruments, at a fraction of the cost of new equipment. For those delving into the world of used analytical instruments, Exapro offers machines that fall between €9,000 and €25,000. By choosing Exapro, you are not just saving money; you are also adopting a sustainable approach by giving second life to quality machinery, thus reducing waste and promoting a circular economy.
Sellers, too, find a seamless process in Exapro. With a vast network of potential buyers, selling your used machinery becomes less daunting. Exapro aids in finding the right buyers, ensuring that your machinery gets a deserving home while you capitalise on your initial investment.
Exapro brings a plethora of benefits for both buyers and sellers. For one, there's transparency. Every machine listed on Exapro is described in detail, with clear images and specifications, ensuring that you have all the necessary information at your fingertips. Exapro team possesses a profound understanding of the pharmaceutical and chemical industries. Their expertise ensures that only the highest quality machinery makes its way onto the platform. And let’s not forget the global reach. With Exapro, you are tapping into an international marketplace, opening doors to a myriad of opportunities and potential collaborations.
Whether you are looking to buy or sell analytical instruments in the pharmaceutical and chemical realms, Exapro promises a journey that's efficient, trustworthy, and tailored to your needs. Dive into a world of opportunities, and let Exapro be the catalyst in elevating your business to greater heights.
Analytical instruments have been the cornerstone of research and quality control in the pharmaceutical and chemical industries. Their precise and accurate measurements have ensured that products meet rigorous standards, while also facilitating groundbreaking research. Here are the main advantages of these indispensable tools:
Precision and Accuracy: Analytical instruments offer unparalleled precision. Whether measuring minute quantities of a substance or discerning slight variations in a sample, these tools ensure that readings are accurate, reliable, and reproducible.
Efficiency and Speed: Modern analytical instruments can process samples rapidly, allowing for high-throughput analyses. This is crucial in industries like pharmaceuticals, where time-sensitive results can impact patient health or the production timeline.
Complex Analysis: Some instruments can detect and quantify multiple components within a sample simultaneously. This multiplexing capability is essential for comprehensive sample analyses, especially when dealing with complex mixtures.
Reduced Sample Size: Many modern analytical tools require only minuscule sample sizes for accurate analysis. This not only conserves valuable materials but also reduces waste.
Safety: Especially in the chemical and pharmaceutical sectors, some substances can be hazardous. Analytical instruments allow for closed-system analysis, reducing the risk of exposure to potentially harmful agents.
Quality Control and Assurance: For industries governed by stringent regulations, analytical instruments ensure that products consistently meet the required standards. They validate that raw materials and final products are of the desired quality, potency, and purity.
Research and Development: In the realm of R&D, analytical instruments play a pivotal role in drug discovery, materials science, and other innovation-driven sectors. They allow researchers to study compounds at a molecular or even atomic level, unlocking new knowledge and potential applications.
Cost-Efficiency in the Long Run: While the initial investment might be significant, the accurate and timely data provided by analytical instruments can lead to cost savings. By ensuring product quality and reducing waste or rework, these tools can yield a positive return on investment over time.
Quality Control and Assurance: For industries governed by stringent regulations, analytical instruments ensure that products consistently meet the required standards. They validate that raw materials and final products are of the desired quality, potency, and purity.
Environmental Monitoring: Analytical instruments are also vital for environmental studies. They can detect and quantify pollutants, toxins, and other substances in air, water, and soil, playing a crucial role in environmental protection and sustainability.
Versatility: Many analytical instruments can be adapted or configured for different analyses, making them versatile tools in laboratories. With the right attachments or settings, a single instrument can serve multiple analytical needs.
Analytical instruments are more than just tools; they are the backbone of quality, research, and innovation in the pharmaceutical and chemical industries. Their advantages go beyond mere measurement, driving progress, ensuring safety, and setting the benchmark for excellence.
Analytical instruments are designed to measure and analyse a wide range of substances and properties. Depending on the specific instrument and its application, different parameters are vital. Here are some main machine parameters commonly associated with various analytical instruments:
Sensitivity: Refers to the instrument's ability to detect and measure low concentrations of a sample. It essentially gauges the smallest change in analyte concentration that results in a measurable response.
Resolution: The ability of an instrument to differentiate between two closely spaced peaks or signals. Higher resolution allows for distinguishing between substances that might otherwise appear identical.
Accuracy: The degree to which a measurement matches the true or accepted value. It's a measure of the instrument's correctness.
Precision (Repeatability): Refers to the consistency of repeated measurements under unchanged conditions. High precision means that the instrument will give the same reading when measuring the same sample multiple times.
Range: The minimum and maximum limits between which the instrument can accurately measure.
Speed (Throughput): Indicates how quickly the instrument can complete a measurement or process samples.
Detection Limit: The smallest amount or concentration of an analyte that can be reliably detected but not necessarily quantitated.
Quantitation Limit: The smallest amount or concentration of an analyte that can be quantitatively determined with suitable precision and accuracy.
Linearity: Refers to the instrument's ability to produce output that is directly proportional to the input, over its operational range.
Robustness: The degree to which the instrument remains unaffected by small variations in method parameters.
Noise Level: Background interference or random electronic noise inherent in the instrument's measurements. Lower noise levels mean clearer readings and signals.
Sample Capacity: Indicates the number of samples the instrument can handle at a given time, especially relevant for automated systems.
Calibration Frequency: How often the instrument needs calibration to maintain its accuracy.
Operational Environment Requirements: Specifies conditions like temperature, humidity, and cleanliness levels required for optimal functioning of the instrument.
Interface and Connectivity: Refers to the ways the instrument can be connected to computers or networks for data transfer, analysis, and control.
Power Requirements: Specifies the electrical needs of the instrument, such as voltage, current, and frequency.
Different analytical instruments, from chromatographs to spectrometers, will prioritize certain parameters based on their function and application. When selecting or evaluating an analytical instrument, it's essential to consider these parameters in the context of the intended use to ensure the instrument meets the necessary requirements.
Analytical instruments are versatile tools with applications across a wide range of fields. Their primary function is to analyze and characterize the composition, structure, and physical properties of materials. Here's a look at the primary areas where these instruments are employed:
Pharmaceuticals: Analytical instruments play a crucial role in drug development, testing, and quality control. They help ensure that medications are pure, potent, and safe for consumption. For instance, chromatographs can identify and quantify the active ingredients in a drug sample.
Environmental Studies: These instruments detect and quantify pollutants, contaminants, and other chemicals in air, water, and soil samples. They are essential for monitoring environmental health, compliance with regulations, and studying changes over time.
Chemical Industry: Analytical instruments help in the analysis and quality control of chemical products. They can determine the composition of mixtures, verify the purity of reagents, and analyze chemical reactions.
Food and Agriculture: Instruments like spectrometers are used to determine the nutritional content of foods, detect contaminants or adulterants, and ensure the safety and quality of agricultural products.
Forensics: In forensic labs, these tools help analyze evidence, from identifying substances found at crime scenes to comparing trace materials.
Clinical Laboratories: Analytical instruments are essential in diagnosing diseases, monitoring patient health, and studying biological samples. For example, blood analyzers can provide a detailed breakdown of a patient's health markers.
Research & Development: In academic and industry research labs, analytical instruments facilitate new discoveries. They allow scientists to study compounds at a molecular or atomic level, leading to innovations in materials science, biotechnology, and more.
Petrochemical Industry: These instruments analyze crude oil compositions, monitor processes, and ensure the quality of products like gasoline, diesel, and lubricants.
Material Science: Instruments like electron microscopes allow researchers to delve deep into the structure of materials, leading to the development of new, advanced materials.
Cosmetics and Personal Care: Analytical instruments ensure that cosmetic products are safe for use, free from harmful contaminants, and consistent in their formulation.
Breweries and Wineries: Instruments like gas chromatographs can profile the aroma compounds in wines or beers, helping producers refine their flavors and ensure product consistency.
Nanotechnology: As we venture into the realm of the very small, analytical instruments provide insights into nanoparticles and their properties, paving the way for innovations in electronics, medicine, and more.
Energy and Renewables: Analytical instruments are used to study and improve materials for solar panels, batteries, and other renewable energy technologies.
This list is by no means exhaustive. The versatility of analytical instruments means that as long as there's a need to dissect and understand the composition and properties of a material or substance, these tools will find a place of importance.
There are numerous manufacturers globally known for producing high-quality analytical instruments for various applications. Here are some of the most recognized names in the industry, which you may also find at Exapro:
Agilent Technologies: A leading name in the analytical instrumentation field, Agilent offers products such as chromatographs, mass spectrometers, and atomic force microscopes.
Thermo Fisher Scientific: One of the giants in the scientific research domain, they produce an array of analytical instruments, including electron microscopes, mass spectrometers, and elemental analyzers.
Shimadzu: This Japanese company has a vast portfolio encompassing chromatographs, spectrometers, and other precision instruments.
PerkinElmer: They manufacture instruments used in diagnostics, food safety, environmental monitoring, and more, with a focus on spectrometers and chromatographs.
Bruker: Specializing in magnetic resonance, Bruker is a major player in the world of spectroscopy and microscopic imaging.
Waters Corporation: Known especially for their innovations in liquid chromatography and mass spectrometry.
AB Sciex: They are leaders in the field of mass spectrometry, producing high-end instruments used in research and diagnostics.
Mettler Toledo: While they produce various analytical instruments, they are particularly known for their precision balances and scales.
JEOL: A major player in electron microscopy and nuclear magnetic resonance, this Japanese company has contributed significantly to advancements in imaging and analysis.
Beckman Coulter: Owned by Danaher Corporation, Beckman Coulter produces various analytical instruments, especially those used in clinical and biomedical research.
Bio-Rad Laboratories: While they cater to various domains, Bio-Rad is known for its tools used in life sciences and proteomics research.
Hitachi High-Tech: They produce a variety of high-tech instruments, including electron microscopes and spectrometers.
Varian (now part of Agilent): Before being acquired by Agilent, Varian was a standalone giant in the realm of chromatography and spectroscopy.
These are just a few of the numerous manufacturers in the vast domain of analytical instrumentation. Each of these companies has made significant contributions to science and industry, driving research, ensuring quality, and aiding in the discovery and development of new technologies and solutions.