Fluorometer

Labtron Fluorometer boasts an impressive dynamic range of 5 orders of magnitude (R2 > 0.995), is capable of processing samples in just 3 sec using UV LED/blue LED light sources, and has excitation filters at 365 ± 20 nm and 460 ± 20 nm. Designed with a 4.3-inch touch screen, it enables easy measurement of DNA, RNA, and protein with high sensitivity and the lowest DNA detection limit of 0.5 pg/µl.

Denovix DS-11 Microvolume Spectrophotometer / Fluorometer

The multi-award-winning Denovix DS-11 Series Spectrophotometer / Fluorometer is the first to offer fluorescence and microvolume UV-Vis measurements. DeNovix takes spectrophotometry to a whole new level of performance with the DS-11 Series. This easy-to-use, compact instrument delivers full spectrum UV-Vis analysis and fluorescence capability making it ideal for rapid nucleic acid and protein quantification.

In Order To Find Out More On Details DS-11 Microvolume Spectrophotometer And Fluorometer Kindly Checkout Our Site Today..!

Top 5 pieces of lab equipment

Centrifuge. Classic but also essential. Separates your shit with the power of physics aka tell them to get rotated at 5000 rpm, idiots. Comforting hum and sometimes warm air when nicely balanced. Do Not poorly balance your centrifuges around me, I respond to it like nails on a chalkboard that's also abusing a puppy.

Vortexer. Does the opposite of the centrifuge. Literally stimulation go brrrr. Satisfying in a way that's hard to explain if you haven't used one- press test tube on grippy platform, it shakes real good, your shit is now unseparated.

Micropipetter. THE GOOD ONES ie the one pictured below, which is the Gilson Pipetman Classic (tm). I have a powerful bias for these because they're what I had in my very first lab job and the feel of them is just. Better than any of the newer and cheaper ones I've used. If you're pro level you can even main the 8 or 12 channel but Be Careful. I am of course pro level, I LEARNED to pipette loading electrophoresis gels with a multichannel and to this day nothing else has required that level of pipette finesse. You can buy your own single channel Pipetman Classic on Fisher Scientific's website for just $732 ❤

Spectrophotometer/fluorometer. Similar and sometimes combined into one piece of equipment although there are many kinds. Tells you what's in your shit. This is important because, at last in my line of work, the stuff your lab is both paying and being paid big money for all looks like clear water. Because it's very small and suspended in clear water. Is your shit actually in there and how much/what kind is a very important question to know if all your other shit is working. Also in the case of fluorescence generates the data that is what you're actually getting paid for, essentially also answering the question of What's In Your Shit.

Sharpie. Beat out the rest of the competition for its ubiquitousness. You're doing lab work? You need a sharpie. You gotta label a glass beaker with the date your media was made? You gotta label a stack of plastic plates going in the -80 freezer? You gotta write a post it note saying DONT TOUCH TEST IN PROCESS? You gotta draw a diagram of how polymerase chain reaction works on a paper towel for the new kid? You need to write a reminder to yourself to take yesterday's samples out of the incubator at exactly 1:07 on your arm? Sharpie.

DeNovix Announces 21 CFR Compliance Ready Software for Spectrophotometer / Fluorometer Products

https://koliasa.com/denovix-announces-21-cfr-compliance-ready-software-for-spectrophotometer-fluorometer-products/ DeNovix Announces 21 CFR Compliance Ready Software for Spectrophotometer / Fluorometer Products - ...

Cost And Versatile Spectroscopic Experiments

Ocean Optics manufacture an extensive range of cuvette holders for a range of measurement types including absorbance, transmittance, fluorescence, reflectance, emission and temperature controlled, together with disposable and quartz cuvettes for use on the cuvette holders. Learn more about how to sell school supplies online. Ultra-micro, semi-micro and macro spectrophotometer cuvettes may be purchased in reusable or disposable models. The concentration of the sample is a function of the abbreviated light path. Accuracy and high quality: Firefly cuvettes are made with the best quality quartz and glass material available.

UV quartz cuvettes made in such method have much stronger chemical resistance and better life time than cuvettes made in other way such as being glued together. See right how it fits perfectly into the slot for cuvettes. Each case consists of cuvettes with the same impression number.

The general materials of a cuvette can be glass, quartz (for UV), or plastic, and so on. The width of a cuvette affects the path length of the beam getting through the sample, resulting in different absorbance. Online furniture shopping has become popular for this very reason: it connects customers with furniture that has the style, color, and pricing they want.

Globe Scientific supplies a complete line of cuvettes, sample cups and printer paper for use on the Dade Dimension® analyzers. If you have a tight budget, than you are going to want to go with an Optical Glass cuvette. The main components of a UV Vis spectrophotometer are a light source, sample holder, dispersive device to separate the different wavelengths of the light, and a suitable detector, for example a photo diode detector.

It would thus be desirable to provide an optical configuration for fluorescence measurements wherein the path lengths of the excitation beam and emitted beam are short. By measuring and comparing a series of standard solutions -with known concentrations - of the analyte, the concentration of the analyte in the sample can be determined.

We try improving the quality of our products for every consignment we dispatch. Standard Fluorometer UV quartz cuvette with 4 clear windows. Single- or limited-use applications can benefit from disposable or semi-disposable cuvettes. Quartz Cuvettes for Vernier UV-VIS Spectrophotometer is made for and available separatley from Vernier UV-VIS Spectrophotometer (TC1590).

They are packaged in a practical dust-proof support-container made of PS foam containing 100 cuvettes. Products include cuvettes manufactured from clear polystyrene resin, fit most spectrophotometers, and are available with double seal polyethylene caps. The unique shape of the UVette allows sample measurement using two different optical path lengths, which are clearly marked.

Precision Cells cuvettes are guaranteed to give you the best optical transmission. 16. After measurement clean used cuvettes. Categorize products not just by type and brand, but by compatibility, so a customer can select their own phone from the list and see everything you have.

Spectrophotometer Cells And Cuvettes

Sensitivity and specificity are two good reasons to use fluorometers to quantify, detect and monitor analytes and their reactions in the lab. Privacy and access to customer reviews are huge factors; customers buying adult toys want to purchase something they're sure to enjoy, and they often want to avoid anyone knowing about it. Online shopping offers a discreet and informative solution for customers buying these products.

Measurement: Put the Cuvet.Co cells cuvettes into the spectrophotometer, one after another, and click the button to record the spectrum between 200 and 800 nm. Click on the camera icon and copy the resulting image in order to compare all of them at the end of the experiment.

Spectral scanning measurements determine the absorbance or transmittance of a sample over a specified wavelength range or over the full spectrum range, typically from 190 to 1100 nm. The most common analysis afterwards is the detection of peaks and valleys.

1. A combined fluorometric-photometric solution analyzer for the simultaneous determination of solute concentration in a multiplicity of discrete samples comprising: a. a rotor assembly defining a multiplicity of sample analysis cuvettes, said cuvettes each having: i. a shallow portion bounded on one side by a transparent window and on the opposed side by an opaque wall disposed in parallel with said transparent window; and ii. a portion of greater depth than said shallow portion bounded on two sides by transparent windows disposed in parallel; b. means for directing an excitation light beam through said transparent wall bounding said shallow portion and into said shallow portion; c. means for detecting fluorescence emitted from sample solution within said shallow portion; d. means for directing a light beam through said portion of greater depth; and e. means for detecting light transmitted through said portion of greater depth.

The cuvette 1 on account of its shaping and form can be easily filled also with small sample quantities, since a pipette tip under observation can be led through the upper opening 7 until into the lower part 10. On account of the low content capability of the latter, sample quantities of 50 μl are sufficient.

The UV fused quartz glass construction allows these cuvettes to be used with UV light at wavelengths as low as 200 nm, as well as with visible and infrared light up to 3 µm. Thorlabs offers cuvettes with either two polished sides, for use in absorption spectroscopy experiments, or four polished sides, for use in fluorescence spectroscopy.

Instruments incorporating a monochromator can be used in either transmittance or reflectance mode depending on sample type; such equipment is normally used in a research environment when a wide range of different applications is required or when spectral information from a wide range of wavelengths is necessary for the development of an accurate and stable calibration (Osborne, 2000).

In practice the validity of Lamber-Beer law is limited by dispersion of light because of tiny impurities in the sample; phosphorescence or fluorescence of the sample; small amount of light passing through highly concentrated solutions; changes of values of absorbing coefficients; shifting chemical equilibrium caused by high concentration of substances in the sample.

FEW IMPORTANT FACTS YOU SHOULD KNOW ABOUT SILICA

Fused Silica is one of the most useful industry material and the perfect combination of the absolute refractive-index which is mainly used in scientific items including flow channel cells, spectrophotometer cuvettes, quartz microfluidic chips, fluorometer, and some other optical items. Fused Silica is also a relevant term which has the same properties and uses. This is one of the most popular minerals and there are many sources by which you can get silica in a large quantity.

Have a look at the following major uses of silica:

Most of the steel industries use silica to manufacture different products as silica considered as a great semiconductor because of the amazing internal electronic structure. In various manufacturing companies silica used for producing ICs.

Silicate glasses and ceramics both are well-known terms in which silica uses in the initial stage during manufacturing because silica plays the role of main ingredient. Moreover, silica could be taken in two beneficial forms such as crystalline and amorphous.

Other industries like thermal industries are also using silica because it contains an important property of stabilization in the respect of electricity as well as it has a small thermal expansion. High holding to scape is also a great quality that make silica useful and effective.

Due to a high melting point, silica considered as an excellent refectory material. Because of a good electrical insulator, it has a high demand especially in electrical industries.

Major terms in electrical industries where silica is used are:

​Semiconductors

Circuit boards

Production of glasses

Refectory materials

Aside from it, high energy laser optical is the most important application where nothing can beat the effectiveness of silica. Basically, silica can be produced by two major processes such as with the help of synthesis process and with the help of gas or heating process.

If you are finding a reliable provider of high-quality silica, browse the internet to meet your specific needs and make your search easier. 

Day 5: Chemistry Analysis

Today, we analysed the samples that we collected on the RV Calanus for phosphate, oxygen and chlorophyll concentrations. Here are a few of the methods we used.

Spectrophotometry 

Spectrophotometry is the measure of the absorbance, or the capacity to absorb and diffract light, of a particle, usually in a liquid substance. The spectrophotometer sends a ray of light of a known wavelength (specific to the particle being measured) through the cuvette that holds the sample to be tested; it then calculates how much of the original light arrives at the receiving sensor in the back. Absorbance is therefore the fraction of the light that is either absorbed or diffracted by the particle in the liquid; the more substance there is in the sample, the higher the absorbance will be. 

A blank sample, usually distilled water, is used to calibrate the spectrophotometer; as it doesn’t contain any ions, it should have an absorbance of 0.

The Winkler Method

The Winkler method is widely used to determine the amount of dissolved oxygen in a water sample. The oxygen in the samples is first fixed by adding manganese, iodide and hydroxide ions, which form a brown precipitate on contact with the dissolved oxygen. To break up the precipitate and start the titration, a strong acid, usually sulphuric or hydrochloric acid, is added to the sample, as well as a colour indicator. The titration is then performed using a thiosulphate solution of a known concentration. The amount of thiosulphate added is equivalent to the amount of liberated iodine, which is itself equivalent to the dissolved oxygen concentration in the sample. 

Fluorometry

Fluorometry is the determination of the amount of chlorophyll in a sample using a fluorometer. The fluorometer sends a beam of ultraviolet light into the sample; once excited, the chlorophyll emits a fluorescence, the intensity and wavelength of which is then analyzed by the fluorometer. 

Phosphate Analysis using Spectrophotometry – Ollie and Pasqualina 

Our job today was to analyse the phosphate concentration in our water samples; this was done using the spectrophotometry method. 

We first created 6 different dilutions of a standard phosphate solution to create a baseline series of samples for our measurements; each flask contained a known concentration of phosphate. We then put the samples into the spectrophotometer to measure the level of absorbance of each baseline solution. When we plotted the absorbance against the respective phosphate concentrations on a graph, we saw that they were nearly proportional. This therefore enabled us to derive a linear equation to calculate the concentration of phosphate in our samples from the RV Calanus, based on their absorbance.  

Oxygen Analysis using the Winkler Method – Ellie and Ryan 

The oxygen concentration in our samples was analysed using the Winkler Method. We added the titrate drop by drop until the end point was reached; this happened when the solution became colourless against a white background.

 We also performed a standardisation of the thiosulphate to verify its concentration. This was done by setting up the titration just like for the water samples, except instead of a water sample, distilled water was used. Iodate was added to the distilled water, and once the iodine was liberated, it was titrated in the same way as the other samples. We knew the amount of titrate that needed to be added for a set concentration; unfortunately our results showed that the concentration wasn’t exactly the amount we thought it was. 

A blank procedure was also performed to ensure that the reagents added to the sample did not contribute to the colour change of the sample. Distilled water was again used in place of the seawater and all the reagents were added. The starch indicator did not change colour, which showed that the reagents did not contain iodine, as desired.

Chlorophyll Analysis using Fluorometry – Danni and Richard

So What Did we do Today?

* Some awesome lab based chemistry.

* To start, we had to make a dilution series of chlorophyll, to create a calibration curve of chlorophyll concentration vs fluorometer readout.

* We then tested our collected samples in the fluorometer. We took 5 repeat measurements and calculated the average of all the results.

* We then used the equation of the calibration curve and the fluorometer readout to estimate the amount of chlorophyll in the water.

* Despite some slight anomalies in the readouts our data output actually seemed pretty decent by the end of the day, giving us some great data to work with in the coming week.

The Challenging Nature of Science

* In the analysis of today’s results it became clear that there were a few anomalies in the data, with the same samples showing big differences in the readouts.

* Taking the average of these helped to reduce their influence and improve the accuracy of the data. It also showed how important it is in science to make repeat measurements.

* Initially our dilution series was inaccurate but with a little expert help this was soon rectified, and we were back on track.

DeNovix DS-11 FX Series Spectrophotometer

Welcome to a Biomedical Battery specialist of the Mindray Battery

DS-11 FX Series of Spectrophotometer / Fluorometers combine UV-Vis absorbance and fluorescence methods in one compact , maintenance-free instrument. Rapidly quantify seven orders of magnitude of nucleic acids and protein samples selecting your choice of UV-Vis or Fluorescent modes.

Unique all-in-one absorbance and fluorescence design. The choice of microvolume or cuvette absorbance and fluorescence methods delivers unmatched flexibility and dynamic range. Coupled with the DeNovix dsDNA quantification assays, a range of 0.5 pg/µL to 37,500 ng/µL can be rapidly measured.

Easy to learn. Fast to use. DS-11 FX Series instruments with battery such as Tektronix Y350C Battery, Mindray LI13I001A Battery, Philips VM1 Battery, Philips VSI Battery, Fukuda BTE-001 Battery, Fukuda FX-8222 Battery, Mindray LI13I001A Battery, Mindray IMEC8 Battery, Mindray IMEC10 Battery, Mindray IPM12 Battery, Mindray T5 Battery, Mindray T6 Battery are powered by intuitive, pre-installed DeNovix EasyApps® and a breakthrough AndroidTM touchscreen interface. Dedicated applications ensure error-free operation and sample to data in under 4 seconds. Every instrument is ready for absorbance and fluorescence measurements right out of the box – no PC set-up or software installation.

Fluorescence Freedom! DeNovix fluorometers give scientists the flexibility to choose any fluorescent assay, not just the assays supplied by one manufacturer. Fluorometer apps are pre-configured for common commercially available assays measured in standard 0.5 mL thin-wall PCR tubes. Four fluorescent channels encompass a wide fluorophore excitation (361-662 nm) and emission (435-740 nm) range.

Calibration and Maintenance free. SmartPath® Technology ensures the DS-11 FX is always accurate and always precise – no performance drift and no service down-time. Our patented* design controls the pathlength in real-time while compressing the sample during analysis. Be confident in results from 1µL, even for difficult to measure samples like protein, thanks to SmartPath® Technology.

*Patent US9442009 – Apparatus and Method for Making Optical Measurements of Samples.

Connect to Your Results. Built-in Wi-Fi, Ethernet and USB allows easy export of data you want in the format you need. Email a CSV or color jpg of your results…save data to LIMS or network drives…print results or graphs to network and label printers…and more!

FX series Spectrophotometer / Fluorometers are available in four colors and two models:

DS-11 FX+ (1µL UV-Vis, cuvette UV-Vis + fluorescence)

DS-11 FX (1µL UV-Vis + fluorescence)

Features

1µL/Cuvette UV-Vis and Fluorescence

Broadest Dynamic Range

Stand-Alone (no PC required)

Maintenance and Calibration Free

Spectrophotometer- A Complete Guide

Spectrophotometer is laboratory equipment which is primary used to study the wave nature of light like wavelength, refractive index and intensity of light. This apparatus is regularly used in field of Physics, molecular biology, chemistry and biochemistry. The light energy depends on lambda, and it can be extend up to specific range.

The working principle of Spectrophotometer:

Spectrophotometer breaks the monochromatic source of light (sodium lamp) into two spectral components, digitize the signal as a function of wavelength, and read it out and display it via a computer. In the first step, beam of light is passed through a fiber optic cable into the spectrometer through an entrance slit, which is a narrow aperture. The slit vignettes the light as it enters the spectrometer and then divergent light collimated by a concave mirror and directed onto a grating.

The types of Spectrophotometer:

Lab equipments manufacturers who have expertise in scientific laboratory supplies, they manufacture, sale and distribute several types of Spectrophotometer to school, colleges and research institutes.  If you are looking for the best range of Spectrophotometer then contact to the leading Spectrophotometer Manufacturer, dealer, supplier and distributor. In this article, we will describe 12 types of Spectrophotometer

1-Atomic Absorption Spectrophotometer: Atomic Absorption Spectrophotometer includes a flame burner to atomize the sample like a monochromatic, and a photon detector. This apparatus is equipped with a turret or fixed lamp socket that can hold multiple lamps.

2- Double beam Spectrophotometer: In this apparatus, reference beam and sample beam is passed through the apparatus and it has two detectors that allow the two beams to be measured at one time.

3- Infrared Spectrophotometer- It is an analytical instrument used to identify materials including organic polymers. The device records the relative amount of energy as a function of the wavelength/frequency of the infrared radiation when it passes through a sample.

4- Single Beam Spectrophotometer- A single beam spectrophotometer utilizes one beam of light that passes through the sample and the intensity of the light reflected from a reference is measured without the sample.

5- Spectrofluorometer- The device is designed to detect and quantify fluorophores. When fluorescent molecules are passed through the device, then it absorbs photons at a characteristic wavelength.

6- UV VIS NIR Spectrophotometer- Using specific wave length (between 135 to 3300nm), the device measures material’s reflection or transmission. This device is ideal in fields such as chemistry, materials science, semiconductors, and forensic examination, and in clinical applications.

How to buy the best spectrophotometer:

When it comes to purchasing the best Spectrophotometer, then always contact to trusted scientific laboratory supplies. A leading lab equipment manufacturers, dealers and distributors use their skill efficiently to build the finest spectrophotometer. Following are the simple guide that will help you to choose the correct spectrophotometer for any experiment.

·         Make sure that two parallel windows are polished and if a researcher is using a fluorometer, than all four optical windows need to be polished.

·         Make sure material the cutter is made out of is very good quality. For researchers working in the UV range, they need a special UV quartz that can transmit from 190-340 nm. The most common range that scientists work in is the visible or VIS range which is from 340-2,000 nm.

·         It also matter that which type of light path you are choosing.  Light paths can range from very small, ex. 0.01 mm, up to 200 mm. If the researches have a large sample then a 10 mm light path is the industry standard.    

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Denovix DS-11 Series Spectrophotometer And Fluorometer

The multi-award-winning Denovix DS-11 Series Spectrophotometer / Fluorometer is the first to offer fluorescence and microvolume UV-Vis measurements. DeNovix takes spectrophotometry to a whole new level of performance with the DS-11 Series. This easy-to-use, compact instrument delivers full spectrum UV-Vis analysis and fluorescence capability making it ideal for rapid nucleic acid and protein quantification.

In Order To Find Out More On Details DS-11 Microvolume Spectrophotometer And Fluorometer Kindly Checkout Our Site Today..!

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The Global Market for Microplate Instrumentation and Supplies is Projected to Reach US$6.5 Billion by 2022

Technology Upgrades and Surge in Demand for High Throughput Screening Applications Drive the Microplate Instrumentation & Supplies Market, According to a New Report by Global Industry Analysts, Inc.

GIA launches comprehensive analysis of industry segments, trends, growth drivers, market size, share and demand forecasts on the global Microplate Instrumentation & Supplies market. The global market for Microplate Instrumentation and Supplies is projected to reach US$6.5 billion by 2022, driven by increased CAPEX on lab automation in the field of clinical diagnostics and growing investments in drug discovery and research and increased adoption of high throughput screening technologies to reduce time-to-market and optimize project cost and profitability.

Microplate instrumentation, an integral component of lab automation market, finds use in myriad applications including medicine, drug discovery, pharmaceuticals, microbiology, and virology among others. High throughput screening (HTS) applications in drug discovery processes, pharmaceutical and life science research comprise the primary growth drivers in microplate instrumentation market. Other drivers include technology advancements focused on enhancing laboratory efficiency, accuracy and precision, and incorporation of features that offer the ability to customize the workflow for a particular experiment. Miniature and compact sized microplate instruments are growing in popularity, given their ability to reduce consumption of expensive reagents and improve throughput.

Within the microplate instrumentation market, microplate readers form the core detection segment. Although an established technology, microplate readers market continues to embrace technology upgrades centered on improving functionality, flexibility, speed, and throughput, to meet the requirements of emerging applications. With researchers demanding user-friendly and reliability features, vendors are introducing new advancements and advanced configurations to improve performance, and user interface. Multi-mode (MM) microplate readers designed for reading multiple detection modes are being extensively used in modern academic research, biotech and pharmaceutical laboratories. With advancements in MM plate reader technology primarily focused on the adding new modes along with enhancing hardware specifications, such as microplate density, read time, and sensitivity,  modern day MM microplate readers are capable of reading up to 13 different detection modes. Automated microplate washers have been gaining popularity among laboratory applications driven by their ability to offer low intra- and inter-plate variability coupled with improved assay performance. Innovation in this space is driven in part by growing popularity of bead-based assays. Very-high-density plates such as the 3,456-well format are growing in demand as they use a small fraction of reagents and cells, thus saving operating and overhead costs.

As stated by the new market research report on Microplate Instrumentation & Supplies, the United States represents the largest market worldwide. Asia-Pacific ranks as the fastest growing market with a CAGR of 6.7% over the analysis period led by factors such as government policy led support for life sciences R&D investments; growing trend of outsourcing pharma research and development to low cost developing countries, mushrooming of Contract Research Organizations (CRO), establishment of new research facilities and growing focus on upgrades and replacement of obsolete lab equipment such as detection instruments, liquid handling instruments etc.

Major players in the market include Beckman Coulter, Inc., Biohit Oyj, Bio-Rad Laboratories, Inc., BioTek Instruments, Inc., BMG LABTECH GmbH, PerkinElmer, Inc., Tecan Group Ltd. and Thermo Fisher Scientific, Inc. among others.

The research report titled “Microplate Instrumentation & Supplies: A Global Strategic Business Report” announced by Global Industry Analysts Inc., provides a comprehensive review of market trends, issues, drivers, mergers, acquisitions and other strategic industry activities of global companies. The report provides market estimates and projections in value for all major geographic markets such as the US, Canada, Japan, Europe (France, Germany, Italy, UK, Spain, Russia and Rest of Europe), Asia-Pacific (China and Rest of Asia-Pacific), Latin America (Brazil and Rest of Latin America), and Rest of World. Product segments analyzed include Microplate Readers (UV-Vis Spectrophotometers, Fluorometers, Luminometers, Scintillation Counters and Multimode Readers), Washers & Accessories, Liquid Handling & Robotic Equipment, and Microplates & Consumables.

 Global Industry Analysts, Inc. 6150 Hellyer Ave., San Jose CA 95138, USA, All Rights Reserved.

Continental News: DeNovix pink spectrophotometer - fluorometer won by Ukraine National Acaedemy of Science https://t.co/xm7OVRt4pT

Continental News: DeNovix pink spectrophotometer - fluorometer won by Ukraine National Acaedemy of Science https://t.co/xm7OVRt4pT

— contclin (@contintumblr) April 17, 2017

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The Global Market for Spectroscopy Equipment and Accessories is Projected to Reach US$22 Billion by 2022

Growing Focus on Single Cell Studies in the Biomedical Field to Spur Demand for Spectroscopy Equipment and Accessories, According to a New Report by Global Industry Analysts, Inc.

GIA launches comprehensive analysis of industry segments, trends, growth drivers, market share, size and demand forecasts on the global Spectroscopy Equipment and Accessories markets. The global market for Spectroscopy Equipment and Accessories is projected to reach US$22.0 billion by 2022, driven by strong R&D investments in life sciences research particularly the growing focus on single cell studies in biomedicine; and rising demand for handheld instruments.

Spectroscopy are crucial instruments in a laboratory and are useful in performing tasks such as analyzing spectrum response of molecules and identifying compounds and chemical structures. The physics behind spectrometry has evolved significantly over the years to make the technology cutting edge for use in several advanced applications such as molecular biology, atomic and molecular physics; and biomedicine, among others.   Growth in the market is also benefiting from the continuous aftermarket demand for consumables and chemicals and software solutions as a result of the rise in testing volumes. Over the long-term, demand from various industries such as metals, chemicals and automotive is expected to drive growth in the market.

Miniaturization of spectrometry devices represents a key trend which brought about a major revolution in mid 1990s and still continues to drive product development efforts worldwide. Miniature spectrometers have played a crucial role in the development and growth of the photonics sector. Fiber optic based spectrometers given their compact size, strength and low cost, find diverse on-field applications enabling researchers to take their research out of the laboratory for more productive results. Mass spectrometry is a rapidly growing market worldwide supported by the rising use of the technology in the food safety, pharmaceuticals and proteomics industries. Several new products have been launched in this space, reflecting the rapid rate of technological innovation in areas such as Q-TOF, LC/MS and triple quadrupole. Cutting edge new generation mass spectrometry devices with better quantitative and qualitative capabilities, efficiency and productivity, are finding use in newer applications, thus benefitting market growth.

As stated by the new market research report on Spectroscopy Equipment and Accessories, the United States represents the largest market worldwide. Asia-Pacific ranks as the fastest growing market worldwide with a CAGR of 8.4% over the analysis period led by expanding life sciences and pharmaceutical research activities in China and India; emergence of Asian countries as outsourcing hubs for laboratory testing and diagnostic services and the ensuing establishment of new labs in the region; and rise in the number of contract research services organization (CRO) as a result of the outsourcing trend in pharmaceutical and biotechnology sectors.  Molecular spectroscopy represents the largest product market, while mass spectrometry devices will continue to spearhead global growth.

Major players covered in the report include AB Sciex LLC, Agilent Technologies, Inc., Bruker Corporation, Digilab, Inc., Extrel CMS LLC, JEOL Ltd., Metrohm AG, Ocean Optics, Inc., PerkinElmer, Inc., Rigaku Corporation, Shimadzu Corporation, Spectris plc, Stellar Net, Inc., Thermo Fisher Scientific Inc., Waters Corporation among others.

The research report titled "Spectroscopy Equipment and Accessories: A Global Strategic Business Report" announced by Global Industry Analysts, Inc., provides a comprehensive review of market trends, drivers, and strategic industry activities of major companies worldwide. The report provides market estimates and projections in US dollars for all major geographic markets including the US, Canada, Japan, Europe (France, Germany, Italy, UK, Spain, Russia, and Rest of Europe), Asia-Pacific (China, and Rest of Asia Pacific), Latin America and Rest of World. The report also analyzes the global market for Spectrometers and Spectrophoto/Fluorometers by product segments such as Molecular Spectroscopy (UV-Vis Spectrophotometers, Raman Spectrometers, NMR-EPR Spectrometers, Near Infrared (NIR) Spectrometers, IR Spectrometers, Color Measurement and Other Molecular Spectrometers); Atomic Spectroscopy (Ark/Spark Spectrometers, Plasma Spectrometers (ICP, ICP-MS), Atomic Absorption Spectrometers, XRD/XRF Spectrometers and Other Atomic Spectrometers); Mass Spectrometry (LC-MS GC-MS, MALDI-TOF and Other Mass Spectrometers); and Accessories.

  Global Industry Analysts, Inc. 6150 Hellyer Ave., San Jose CA 95138, USA, All Rights Reserved.