Laboratory specialist, Asynt, announces a new unique and extensive range of photochemistry reactors as part of their broad catalogue of both batch and flow equipment which enable flexible use for chemists over a wide range of applications and scales. Advancements in reactor technology in recent years has catalysed the rediscovery of ‘reagentless’ activation methods such as photochemistry, and the resulting new tools have changed the way researchers access photochemistry techniques and devise their synthetic routes and chemistries...

Flow Chemistry specialist, Uniqsis, has been acquired by long-term trading partner - Asynt Ltd. The business deal, completed on 31st August 2024, includes the transfer of all Uniqsis staff, the company’s internationally respected intellectual property portfolio plus all equipment stock. Uniqsis’ renowned range of specialist Flow Chemistry products and accessories (including its FlowSyn, FlowLab and FlowLab Plus ranges) will continue to be sold and supported fully by Asynt...

Asynt, a provider of innovative technologies and services for scientific research, is excited to announce the opening of its new office in the San Francisco Bay Area, California. This strategic move marks a significant step forward in Asynt's commitment to serving its North American clientele more effectively. The San Francisco Bay Area is an ideal location for Asynt's expansion due to its strategic geographical advantages...

Asynt have announced the launch of an innovative electrochemistry platform, ElectroReact, to revolutionise how scientists carry out electrochemical reactions. Designed in conjunction with engineers and scientists at the University of Leeds, ElectroReact is built to enable truly flexible use and achieve repeatable and accurate results safely. With limited options previously available that offer complete flexibility, chemists often resorted to ‘homemade’ electrochemistry systems that can be potentially hazardous to use and make reproducing results...

Asynt, a renowned provider of laboratory equipment, has collaborated with Almac Sciences, a leading specialist in API development and manufacturing, to design and supply a range of bespoke reactor vessels. This case study showcases the successful partnership between the two companies, highlighting the benefits of utilizing Asynt’s lab vessels to streamline Almac Sciences’ scale-up process...

Global sustainable laboratory equipment visionaries, Asynt, have collaborated with Kingston University (London, UK) and renowned worldwide chemical products supplier, Key Organics, to develop an accessible new synthetic compound library. Chemists from the Wren Group at Kingston University (UK) have formed a collaborative relationship with these industry leaders, enabling them to create a novel synthetic compound library....

Renowned laboratory experts, Asynt, launch the NEW DrySyn Prodigy which offers oil-free heating of round bottom flasks up to 500 mL using fully recyclable materials. Ideal for synthetic chemistry research, the DrySyn Prodigy works seamlessly with any laboratory magnetic stirring hotplate with its unique adjustable and removable feet. It also comes with heat and chemical-resistant handles for optimum user-safety...

Reactant concentrations can be easily monitored and adjusted by simply controlling the input/output flow rates into/out of the reactor, which gives chemists greater accuracy when carrying out complex reactions. The stirring of solutions within the reactor also ensures that reactants remain evenly mixed, resulting in consistent products across different batches. Furthermore, since reactions occur in real time with CSTRs, their residence times are much shorter compared to batch processing methods...

Asynt announces the expansion of it’s unique LightSyn photochemistry platform with a range of accessible heating and cooling temperature control solutions. With photoreactors designed to suit both batch photochemical reactions and parallel reactions in tubes/vials, global lab experts, Asynt, have launched complimentary bases for the platform which are suitable for both heating and cooling – providing optimum temperature control throughout the users’ reaction...

Sustainable material innovation company, Kelpi (Bristol, UK), is using Asynt’s DrySyn oil-free heating blocks and CondenSyn waterless air condensers in their fight against marine plastic pollution and single-use plastics manufactured from fossil fuels. Dr Stefanie Federle, Chief Scientific Officer, explained that “Kelpi is here to end the madness of using fossil fuels to create largely unrecycled, single-use packaging that takes hundreds of years to degrade, poisoning our oceans and polluting our landscape....

Asynt are proud to confirm that age 16+ learners attending Thomas Rotherham College (South Yorkshire, UK) Sixth Form College are using the CondenSyn waterless air condenser and Distillation Adapter in their lessons after recent updates in the science department. Luke Hanson, Lead Science Technician at the college, shared the college’s excitement at this change: ”We are proud to be one of the first pioneering sixth form colleges in the country to adopt the use of the CondenSyn in our teaching...

Chemists from the Chianese Group at Colgate University (NY, USA) have shared kinetic data obtained using the Asynt Multicell 10-position high pressure laboratory reactor in their recent paper, “The Key Role of the Latent N0H Group in Milstein’s Catalyst for Ester Hydrogenation”. Their characterisation of the mechanisms of Milstein’s catalysts has enabled greater understanding of the reactivity of these catalysts in ester hydrogenation...

Asynt reports how the deepmatter® Group, with facilities in the UK, France and Germany, have developed the cloud-based SmartChemistry® platform to share chemical reaction and sensor data direct from the laboratory to allowing analysis of this information on an unprecedented scale. This single platform allows reaction data to be compiled from multiple data sources to provide...

The Central Teaching Laboratories and the Department of Chemistry at the University of Liverpool (UK) has published an in-depth study that reports upon their implementation of Asynt laboratory equipment across multiple undergraduate teaching modules as they strive to meet their primary sustainability goals, reducing waste and to become net zero by 2035...

Perfect skin, clear conscience. Asynt reports how sustainable cosmetics innovator – Keracol Ltd (Leeds, UK) is using its DrySyn heating blocks and CondenSyn air condensers in the development and scale-up of their award-winning Dr Craft Mandarin green beauty product range. Keracol Ltd is a sustainable cosmetics spin-out company born from over 15 years of scientific research between Professor Chris Rayner and Professor Richard Blackburn of the University of Leeds, UK...

Asynt introduce the LightSyn Lighthouse – a new photochemical reactor system in their LightSyn range, developed in response to customer demand for higher reaction yields, ease of use, high operational safety, and competitive pricing. The LightSyn Lighthouse uses new technology to channel light through a quartz rod directly into the reaction medium, maximising power intensity while keeping photon flux even throughout....

The CondenSyn waterless condenser from Asynt has been widely adopted by the Technicians Sustainability Working Group (TSWG) operating within the Biomolecular Science and Medicinal Chemistry Division at Nottingham University (UK) as part of their drive to make teaching and research greener. Lee Hibbett, a founder member of the TSWG, said "Water condensers have been used in our scientific labs for decades for refluxing reactions at elevated temperature and preventing evaporation of the solvent....

Asynt report how award-winning formulation and development lab – Here2Grow Cosmetics & Homecare Labs (Selby, UK) used the ReactoMate DATUM laboratory reaction vessel system in the development of a next generation clinical haircare product. To tackle common scalp issues encountered by patients, a tricology clinic had been developing scalp therapy products in collaboration with formulation laboratories and manufacturers....

Incorporating an energy efficient drive mechanism – the compact DrySyn Vortex overhead stirrer system from Asynt delivers effective overhead stirring to three round bottom flasks (100 mL to 500 mL) in parallel with stirring from 50 to 500 rpm. Suitable for reaction temperatures up to 200°C, the DrySyn Vortex is the perfect process development tool to efficiently, and safely, drive three stirrer shafts with one overhead stirrer. The compact footprint of the DrySyn Vortex is designed to operate on a single standard hotplate...

Asynt report how Revive Eco (Glasgow, Scotland) are using their ReactoMate ATOM jacketed lab reactor and CondenSyn MAXI system to scale-up an innovative patent-pending process that allows them to strip out an oil from waste coffee grounds which has a very similar fatty acid profile to palm oil. Coffee is one of the most popular drinks worldwide with around two billion cups consumed every day...

Designed to enable clean, safe synthesis – the DrySyn Classic Starter kit from Asynt is an attractively priced package for labs looking to undertake heated reactions in the most commonly-used round bottomed flasks (50, 100, 250, 500 and 1000ml). This versatile starter kit also includes heat resistant handles which enable fast, simple, and safe lifting of your heated reaction flask...

Developed in response to customer demand, the new CondenSyn MAXI from Asynt is ideal for larger scale synthetic chemical reactions and is the latest addition to their popular laboratory air condenser range which is proven in tens of thousands of installations worldwide. The CondenSyn MAXI enables scientists to scale up their experiments effectively from small benchtop synthesis to large volume jacketed reactor vessels...

The LightSyn Illumin8 photoreactor from Asynt offers researchers the flexibility to change quickly and safely between a selection of high-power light emitting diodes (LEDs) operating at wavelengths including UV (365 nm) and blue (450 nm). The LightSyn Illumin8 allows chemists to run up to 8 photochemical reactions in parallel using low-cost 8 mL tubes. Compact in size, this affordable yet high performance photoreactor offers up to eight interchangeable modules of eight UV or coloured LEDs...

Asynt reports how the implementation of CondenSyn waterless air condensers throughout the teaching labs at the Department of Chemistry at the College of the Sequoias (Visalia, CA) is benefitting the wider community whilst providing outstanding performance for their students. Due to ongoing water shortages, California water officials recently had no alternative but to impose new drought rules throughout the state to discourage wasteful water practices...

Optimised for low temperature chemistry - the DrySyn SnowStorm MULTI Starter Kit from Asynt enables users to perform parallel reactions from ambient to -30 ?C – all within a compact footprint. The ability to cool and stir up to 3 round bottom flasks (25 mL, 50 mL, or 100 mL) in parallel, and to hold constant sub-ambient temperatures for long periods of time, makes the DrySyn SnowStorm MULTI Starter Kit a highly attractive tool...

Asynt has introduced a new modular version of its popular LightSyn Illumin8 photoreactor. This innovative system provides researchers with the flexibility to change quickly and safely between a selection of high-power light emitting diodes (LEDs) operating at wavelengths including UV (365 nm) and blue (450 nm). The LightSyn Illumin8 allows chemists to run up to 8 photochemical reactions in parallel using low-cost 8 mL tubes...

Asynt has introduced a versatile new kit for labs conducting low temperature chemistry – the DrySyn SnowStorm MULTI Starter Kit. Developed as a useful addition to Asynt’s popular low temperature chemistry product range - the DrySyn SnowStorm MULTI Starter Kit enables users to perform parallel reactions from ambient to -30 ?C within a small footprint. 

Asynt reports how AM Technology Ltd (Runcorn, UK) has used its ReactoMate ATOM lab reactor support stand to enhance the speed and ease of switching reaction vessels feeding their Coflore® flow chemistry system. Martin Monedero, principal chemist at AMT, commented "Our Coflore flow systems are designed to be as versatile as possible, enabling users to optimise feed vessel set up according to the requirements of a particular reaction. For users to be able to swap reaction vessels quickly and easily is a significant benefit...

Asynt reports how the Process Intensification Group, within the School of Engineering at Newcastle University, UK is using the MultiCell-PLUS High-Pressure Reactor as part of their program of ongoing research to create a new environmentally friendly generation of catalysts for production of biorenewable chemicals. Many industrial processes rely on catalysts containing expensive precious and metals, or metals sourced from areas of conflict...

Asynt has supplied AM Technology Ltd (Runcorn, UK) with two ReactoMate ATOM lab reactor support stands to enhance the speed and ease of switching reaction vessels feeding their Coflore® flow chemistry systems. AMT's Coflore flow reactor range was developed to provide truly scalable flow chemistry solutions in a laboratory environment. Coflore technology provides efficient active-mixing even at very low flow rates, providing versatility...

Asynt reports upon a new paper, written by a multidisciplinary team of experts at the Institute for Process Research and Chemistry (iRPD) at the University of Leeds (UK), that describes how the fReactor flow chemistry system with add-on photochemical flow modules improves synthetic reactions commonly used in the preparation of drug intermediates. In contrast to many tubular or plate-based flow chemistry systems, the Asynt fReactor with Photo Flow modules is especially well-suited...

Asynt has introduced two new innovative kits for scale-up laboratories looking to minimise downtime when changing between different glass reactor vessels. Offering the flexibility to work with glass reactors from different manufacturers, the new ReactoMate Quick-release Couplings allow you to securely attach or detach flexible hosing to your DN or KF glassware in just seconds – with or without tools....

As a respected supplier of off-the-shelf laboratory reactor systems, Asynt has the in-depth knowledge and glassware manufacturing expertise to also offer bespoke glass reactor vessels to meet the exact demands of your application or project. Examples of bespoke glass laboratory reactors designed and manufactured by Asynt have ranged from tens of millilitres to 50 litres in capacity....

UK-based HydRegen are using a DrySyn OCTO reaction station from Asynt to help develop a next generation biocatalyst system that enables cleaner, safer, and more efficient chemical manufacture. HydRegen spun-out from the Vincent Group in the Dept. of Chemistry at the University of Oxford in March 2021. They are developing novel and sustainable strategies for using the growing toolbox of NADH-dependent redox biocatalysts in chemical synthesis...

The Quadracell 4-position high pressure reactor from Asynt is a new synthetic tool for scientists seeking the convenience of routine parallel pressure chemistry in a compact footprint. Designed and manufactured in the UK, the robust Quadracell reactor is simple to set up and to operate, with heating and agitation provided by a standard magnetic hotplate stirrer and magnetic flea...

Developed by Asynt, in conjunction with the University of Leeds (UK), the fReactor Photo Flow provides an easy-to-use, yet powerful platform for scientists looking to explore photochemistry in Flow Chemistry applications. It is widely acknowledged that photocatalysis is a valuable synthetic tool for providing access to reaction pathways which would normally prove problematic or require multi-step synthetic routes using classical thermal or chemical activation methods....

A new white paper, written by scientists at Liverpool ChiroChem (LCC), describes how the Asynt Illumin8 parallel photoreactor is being used to synthesise a range of new 2-Aryl N-Heterocycles. The discovery of a novel enantioselective synthetic pathway for reduction of pyridines to the corresponding chiral piperidines led to the formation of LCC in 2014. Since inception, LCC have enhanced their expertise enabling them to provide leading scientific organisations with access to chirally-pure compounds that play their part in small molecule drug discovery....

Researchers from the School of Chemistry at the University of St Andrews (UK) are using a DrySyn Spiral Evaporator from Asynt to help synthesize novel reactive colloidal nanoparticles that present an exciting tool to create a new generation of 'smart' nanomaterials. The unique properties of nanomaterials mean that potential applications extend from use in smart drug delivery systems through to new catalysts and helping to deliver greater efficiency in solar cells....

Working closely with researchers at the Centrale Lille Institute in Lille, France - Asynt has developed and supplied two custom high-pressure reactors to assist them in their development of new advanced catalysts for biomass transformation. The Catalysis and Solid State Chemistry Unit in Lille brings together a large group of experienced researchers, technical and administrative support staff, plus doctoral students and post-doctoral researchers....

Asynt has published a case study describing how the FroSyn Cooling Station has enabled John Bower’s Group at the University of Liverpool (UK) to reproducibly conduct low temperature enantioselective catalytic reactions, over an extended period of time. The FroSyn system, jointly developed by Asynt and temperature control specialists, Julabo UK, offers a versatile, stand-alone solution to low temperature synthetic chemistry without the drawbacks of traditional reaction cooling using dry ice / solvent baths...

Asynt announce the DrySyn Illumin8 - a new, beautifully engineered, 8-position parallel photoreactor for research chemists. Based upon a modified version of Asynt’s popular DrySyn OCTO reactor, the DrySyn Illumin8 allows users to run up to 8 parallel photochemical reactions at a time in precision borosilicate tubes, up to 6 mL in volume. The unit mounts on a standard magnetic hotplate stirrer enabling powerful agitation and heating (up to 80 °C)...

Asynt reports how Globachem Discovery (Alderley Park, UK) has benefited from the investment in ReactoMate reactor systems for the scale-up of novel agrochemicals. Globachem Discovery is the UK R&D arm of Globachem, a Belgian agrochemical business. The company operates in the early phases of the R&D pipeline, developing new molecules and chemistries for the agrochemical industry....

Asynt has supplied Polymer Mimetics (Liverpool, UK) with a range of synthetic chemistry equipment to exploit novel chemistries to produce a new generation of high-performance polymers. Polymer Mimetics is a joint venture between the University of Liverpool, and Scott Bader Company Ltd. building upon a new polymerisation process developed by Professor Steve Rannard from the University’s Department of Chemistry....

The Multicell PLUS is an exciting addition to the Asynt range of pressure reactors, offering scientists an extremely flexible and customisable device for screening chemical reactions under high pressure conditions. With its own unique safety-locking mechanism and robust, adjustable support frame / lifting platform option, the Multicell PLUS high-pressure reactor sets a new benchmark for operator safety, all-round accessibility and ease-of-use...

The CondenSyn waterless condenser from Asynt has been widely adopted by the Technicians Sustainability Working Group (TSWG) operating within the Biomolecular Science and Medicinal Chemistry Division at Nottingham University (UK) as part of their drive to make teaching and research greener. Drawing upon their pivotal role at the forefront of laboratory work, the TSWG was formed by lab technicians from across all Nottingham University campuses....

Asynt has introduced a second-generation version of its popular DrySyn OCTO reaction station that delivers the same outstanding performance, at the same price, with improved features and a new, more aesthetically pleasing, design. Like its popular predecessor, the DrySyn OCTO Mk II is an 8-position reaction station that provides chemists with powerful magnetic stirring, heating, inert atmosphere....

The ReactoMate DATUM from Asynt is a high quality, dual-rod stainless steel and aluminium support system built to ensure the stability and safety of your lab reactor. Sturdy, yet compact, the ReactoMate DATUM support system can accommodate a wide range of reaction vessels from 100 mL up to 5000 mL. Designed with user-friendliness in mind, the ReactoMate DATUM support system incorporates a suite of innovative features....

Asynt announces FroSyn - an innovative fluid-free cooling plate that enables rapid cooling of samples in vials or round bottom flasks (up to 500 mL) to below -60 °C. Designed in conjunction with temperature control specialists - Julabo GmbH, FroSyn represents a next generation sustainable alternative to using traditional ice and dry ice (CO2) cooling baths...

The DrySyn range of heating & cooling blocks from Asynt is enabling laboratories around the world to undertake clean, safe synthetic reactions both individually or in parallel. Driven by the growing global demand for more sustainable and user-friendly laboratory products, the DrySyn range offers a clean, safe alternative to oil baths and heating mantles which both reduces costs in purchasing and disposal of oil, and offers a reduction in energy consumption....

The DrySyn Spiral Evaporator from Asynt is enabling the Cresswell Group within the Department of Chemistry at the University of Bath (UK) to improve and streamline many aspects of their synthetic organic methods development. The research activities of the Cresswell Group are focused on new reaction development, and the exploitation of novel or underutilised reactivity....

The DrySyn ChilliBlock from Asynt allows you to undertake sensitive biological assays in a temperature-controlled manor, vastly reducing the risk of expensive biological samples, reagents or enzymes degrading due to adverse temperature conditions. Traditionally methods of cooling biological assays have relied upon direct immersion in insulated ice buckets which are prone to....

Asynt reports upon a new scientific evaluation of their Condensyn waterless condenser by the Technological University Dublin (TU Dublin) in the key areas of performance versus Liebig water condensers, water savings potential and flood prevention. Driven by concern over numerous lab flooding incidents in their synthetic chemistry labs at both undergraduate and postgraduate levels from the use of...

Asynt announces the DrySyn Multi-M high temperature adapter - a unique product that enables scientists to undertake parallel reactions that require solution temperatures of over 400°C. A significant number of Asynt customers worldwide have reported great success in using single position DrySyn heating block systems at high temperatures. However, in order to carry out very high temperature reactions in parallel required development of a novel pin locating adapter plate...

The DrySyn SnowStorm range from Asynt offers an attractive solution for scientists looking to undertake low temperature chemical reactions and studies. Unlike traditional reaction cooling methods, including ice, dry-ice and liquid nitrogen; accurate and prolonged temperature control on a DrySyn SnowStorm is regulated by an external thermostatic circulator. The use of such a temperature control system not only eliminates the risk of temperature fluctuations due to perishable coolants, but can also improve...

The DrySyn SnowStorm range from Asynt offers an attractive solution for scientists looking to undertake low temperature chemical reactions and studies. Unlike traditional reaction cooling methods, including ice, dry-ice and liquid nitrogen; accurate and prolonged temperature control on a DrySyn SnowStorm is regulated by an external thermostatic circulator. The use of such a temperature control system not only eliminates the risk of temperature fluctuation.....

Asynt announces their exciting new flow-chemistry platform, the fReactor, an affordable device created to bring the many advantages of flow chemistry to your laboratory through easy-to-use, flexible and intuitive design. Developed in collaboration with chemists and chemical engineers from the renowned Institute of Process Research and Development (iPRD) at the University of Leeds (UK), the fReactor is simple to assemble and modify, making it suitable for...

Asynt announces the DrySyn UNO Base - a versatile entry-level reactor flask heating system with heat resistant handle making it the perfect way to conduct safe experiments in academic teaching and research labs. Designed and manufactured in the UK, the new DrySyn UNO Base provides a simple but effective tool for safe heating and clamping of a single flask or vial using a DrySyn Reaction Vial insert...

Asynt has introduced the DrySyn OCTO Mini Conversion Kit to enable chemists to efficiently sample reactions performed using their DrySyn OCTO 8-position parallel synthesiser. The DrySyn OCTO is a compact, entry-level parallel synthesiser for chemists wishing to conduct synthetic reactions under an inert atmosphere with temperature control and powerful magnetic stirring. The new Mini Conversion Kit lets you quickly adapt a standard...

Asynt report on how installation of a Liquid Nitrogen generator at the Scottish Association for Marine Science (SAMS) is helping the organisation improve long term cryostorage of their precious samples in an environmentally friendly manner. The Scottish Association for Marine Science (SAMS) is Scotland's premier independent marine science organisation generating new knowledge for the benefit of the marine environment and society since 1884. Scientists at the SAMS Institute study how the marine environment works....

Reflecting customer demand, Asynt have continued to expand their range of DrySyn heating block systems for reactions in tubes, vials and flasks. In 2018 - Asynt introduced new DrySyn inserts enabling scientists to heat reactions in 11.80mm, 15.00mm and 27.65mm diameter vials. In addition, the company has introduced the ADS2-2 DrySyn MAXI stand-alone 2L base for laboratories wanting to heat larger scale flask-based reactions and the DrySyn SuperMAXI 4L insert for use with the SuperMAXI 5L base...

Asynt reports how the Rannard Group at the Materials Innovation Factory, at the University of Liverpool (UK), uses new technologies supplied by the company to help improve the environmental impact and reduce water and electrical consumption within their materials science discovery laboratories...

Proven in numerous installations worldwide, the Asynt High Pressure Parallel Reactor can be custom configured to optimally suit applications including homogeneous and heterogeneous catalysis, hydrogenation, carbonylation, corrosion testing, parallel synthesis and screening. Typically constructed from durable 316 stainless steel - the High Pressure Parallel Reactor is an affordable...

Asynt has expanded its range of Lab Safety Shields. Manufactured in the UK, Asynt Lab Safety Shields fit neatly around all major stirrer hotplate brands providing lab scientists with enhanced safety while maintaining easy access to hotplate controls and good all-round visibility of the reaction or process....

Asynt announces its newest member of the ReactoMate reactor family, the “QUANTUM” support stand is the perfect addition to any process chemistry laboratory. Designed to be an affordable entry-level system - QUANTUM is easy to set up and provides secure and stable support for all reaction vessels from 100ml right up to 5,000ml. Manufactured in the UK using durable stainless steel - QUANTUM does not compromise on quality...

Asynt reports on how a DrySyn OCTO 8-position parallel synthesiser has benefited early stage discovery chemistry at Cancer Research UK (Cambridge, UK). Designed to work with any hotplate stirrer, the DrySyn Octo has enabled the CRUK Therapeutic Discovery Laboratories to increase the productivity of their small-scale synthetic reactions....

Asynt has supplied and installed a ReactoMate laboratory reactor system within the Department of Chemical Engineering at Imperial College London. Comprising of bespoke glass reactor vessel, ReactoMate Datum support stand and DrySyn heating block system, the reactor setup will help further research into the fluid dynamics of fine particulate materials....

Asynt reports that medicinal chemistry specialists Charnwood Molecular (Loughborough UK) have been using the DrySyn MAXI heating system to successfully and reproducibly scale up syntheses within their contract research laboratories. Dr Michael McKenzie, Head of Operations, said: “Here at Charnwood Molecular our experienced preclinical R&D team routinely investigate the development of small scale medicinal chemistry routes in order to facilitate the timely supply of...

Asynt announces “Asyntise” a consultation, design and manufacture service whereby the company collaborates with scientists to create practical tools to help fulfil their research needs.

These products may be in the form of one-off custom developments or, in some instances, may evolve into a commercial product suitable for a wider audience....

Asynt announces “Asyntise” a consultation, design and manufacture service whereby the company collaborates with scientists to create practical tools to help fulfil their research needs.

These products may be in the form of one-off custom developments or, in some instances, may evolve into a commercial product suitable for a wider audience. Asyntise formalises the close link that Asynt have established with the international chemistry research community over the last 15 year....

The Asynt GP540 is a new bench-mounted, general-purpose, ventilated laboratory cabinet designed for use in a wide-range of applications.

In the modern laboratory, where space is always at a premium, the compact GP540 uniquely combines true affordability with great flexibility. The GP540 is optimised for applications such as weighing, handling and examination of samples but can also be simply reconfigured to change....

Asynt reports on an increasing demand for bespoke glass laboratory reactor systems, optimised to meet the exact demands of an application or project.

As a respected supplier of off-the-shelf laboratory reactor systems, Asynt has the in-depth knowledge and glassware manufacturing expertise to also offer customised glass reactor vessels ranging from tens of millilitres to 50 litres in capacity. A polymer resin manufacturer commissioned Asynt to develop a 20-litre jacketed glass laboratory reactor...

Asynt announces the new DrySyn Spiral Evaporator - a compact system offering rapid concentration of even high boiling solvents such as DMSO, DMF or water, without the need to heat to high temperatures.

Developed in conjunction with BioChromato (Japan), the new Asynt DrySyn Spiral Evaporator enables scientists to concentrate or dry samples directly from any tube or vial (up to 24mm neck diameter) in DrySyn reaction vial inserts, up to 4 samples at a time, all within the footprint of a hotplate....

Asynt reports that it has supplied Redbrick Molecular Ltd with a wide range of synthetic organic chemistry equipment for its new environmentally responsible laboratory.

Owned by an expandable group of leading UK universities, Redbrick Molecular has unparalleled access to intellectual property generated by these partners allowing them to produce novel strategic building blocks and organic fragments that are attractive to industrial medicinal chemists....

Asynt reports that it has supplied Redbrick Molecular Ltd (Sheffield, UK) with a wide range of synthetic organic chemistry equipment for its new environmentally responsible laboratory.

Owned by an expandable group of leading UK universities, Redbrick Molecular has unparalleled access to intellectual property generated by these partners allowing them to produce novel strategic building blocks and organic fragments that are attractive to industrial medicinal chemists.....

Asynt announces DrySyn UNO - a versatile new heating block system designed to enable chemists to perform heated and stirred experiments in single flasks and vials.

The DrySyn UNO uses DrySyn MULTI inserts to convert any standard hotplate stirrer into a reaction block platform for a single flask from 500ml down to 5ml. In addition, it also allows you to use DrySyn Reaction Vial inserts to undertake securely held heated / stirred experiments....

Asynt has introduced a new attractively priced starter kit based upon its DrySyn Classic heating blocks which are used in thousands of laboratories worldwide.

The DrySyn Classic Starter Kit gives you a great opportunity to try the outstanding performance of this popular laboratory heating block which is compatible with the most commonly used round bottomed flask sizes (50, 100, 250, 500 and 1000ml)....

Asynt reports on an independent evaluation, from a leading UK university, detailing the performance of the CondenSyn MINI air condenser for safe use in their research and teaching laboratories.

Scientists worldwide are increasingly concerned about the safety, cost and indeed the environmental impact of running their laboratories. For synthetic experiments a reflux condenser is often required and is therefore an essential tool for both research and teaching chemistry....

Asynt has launched the DrySyn Octo 8-position parallel synthesizer - a convenient, entry-level product for chemists wishing to conduct synthetic reactions under an inert atmosphere with temperature control, reflux and powerful magnetic stirring.

The compact DrySyn Octo parallel synthesizer accommodates low cost consumable reaction tubes each with a working volume of 5-6 ml. The large surface area of these glass reaction tubes enables the DrySyn Octo to be used for air cooled gentle reflux reactions....

Leading multinational life sciences tools and diagnostics developer - QuantuMDx has invested in the Asynt professional range of non-ducted laboratory filtration and fume cabinets which sit directly on benchtop surfaces.

QuantuMDx purchased the cabinets to aid the development of their portable diagnostic device Q-POC, which will provide sample-to-result diagnostic and drug susceptibility testing for a range of diseases in under 20 minutes by the patient’s side. The device is due for commercialisation in 2018....

Asynt has announced new inserts for its DrySyn heating blocks enabling scientists to now conduct precise temperature controlled, stirred experiments in 0.5-2ml tapered, 2-5ml and 10-20ml microwave vials.

Available as an option for the DrySyn Parallel Synthesis Kit the new microwave vial inserts allow you to heat and stir up to 27 small scale reactions in parallel using any standard hotplate. The DrySyn Parallel Synthesis kit enables clean, safe synthesis without the hazards or problems associated with silicon oil baths or heating mantles....

The DrySyn® SnowStorm ONE from Asynt is designed to provide reliable temperature control of exothermic reactions.

The affordably priced DrySyn® SnowStorm ONE accommodates single standard round-bottomed reaction flasks from 50ml to 1000ml. Interchange of reaction flasks is easy and takes just seconds without disrupting the circulation fluid as is required when using expensive jacketed reaction vessels....

Asynt has announced a new post-pump adapter kit that enables its CondenSyn air condenser to be used as an effective exhaust trap for laboratory vacuum pumps.

Rotary evaporators typically have an integral water or dry ice condenser which, when combined with a well-controlled automatic vacuum pump, provides an effective trap for most solvent vapours.  However some solvent will always escape the condenser trap and make its way into the exhaust of the vacuum pump and out into your laboratory environment....

Asynt announces an updated version of its best practice guide developed to enable laboratory personnel to more safely use heating block systems. 

Written in conjunction with the Department of Chemistry, University of St Andrews (UK) and Advanced Chemical Safety Inc. (USA) the illustrated guide leads you through best practices for glassware inspection, setting up your reaction, heating your reaction and the post-reaction cool down phase.....

Asynt announces an updated version of its best practice guide developed to enable laboratory personnel to more safely use heating block systems. 

Written in conjunction with the Department of Chemistry, University of St Andrews (UK) and Advanced Chemical Safety Inc. (USA) the illustrated guide leads you through best practices for glassware inspection, setting up your reaction, heating your reaction and the post-reaction cool down phase....

The Asynt MultiCell is a lightweight, high pressure parallel reactor designed for undertaking experiments including carbonylation, hydrogenation, catalysis and supercritical fluid reactions as well as air sensitive material studies.

Used in conjunction with a hotplate stirrer the standard 316 stainless steel MultiCell reactor offers users the ability to undertake 10 x 30 ml reactions in parallel at pressures of up to 50 bar and temperatures up to 200°C. In response to customer requests - Asynt has developed a range of new features and options for the MultiCell high pressure parallel reactor that further increases the versatility of this high performance system....

Asynt has produced a new report that compares the thermal performance and advantages of vacuum jacketed versus non-vacuum jacketed reaction vessels.

Data is presented for vacuum jacketed and non-vacuum jacketed reaction vessels connected to a Julabo Presto A30 temperature control system. The report demonstrates that a vacuum jacketed vessel not only achieved faster rates of cooling but was also able to maintain a reaction at -20°C compared to just -15°C for the non-vacuum jacketed vessel. Beneficially, also using a vacuum jacketed vessel was shown to eliminate ice formation on the outside of the...

Asynt has produced a new report that compares the thermal performance and advantages of vacuum jacketed versus non-vacuum jacketed reaction vessels.

Data is presented for vacuum jacketed and non-vacuum jacketed reaction vessels connected to a Julabo Presto A30 temperature control system. The report demonstrates that a vacuum jacketed vessel not only achieved faster rates of cooling but was also able to maintain a reaction at -20°C compared to just -15°C for the non-vacuum jacketed vessel....

Asynt reports on its collaboration with the Department of Chemistry, University of Bath (UK) in the development of a novel mesoscale segmented flow reactor.

In an ideal flow crystallizer, nucleation and growth occur at the same location and rate for a given set of parameters. Particles are well suspended with good mixing throughout the reactor, while plug flow is achieved. However until recently traditional flow crystallizers have been either designed for large volumes or for very small volumes in microreactors with a narrow internal diameter....

Asynt reports on its collaboration with the Department of Chemistry, University of Bath (UK) in the development of a novel mesoscale segmented flow reactor.

In an ideal flow crystallizer, nucleation and growth occur at the same location and rate for a given set of parameters. Particles are well suspended with good mixing throughout the reactor, while plug flow is achieved. However until recently traditional flow crystallizers have been either designed for large volumes or for very small volumes in microreactors with a narrow internal diameter, which makes them incompatible with any...

New scientific evaluations from the Department of Chemistry, University of Uppsala (Sweden) and the Australian National University (Canberra) report on their testing of the performance of the Asynt CondenSyn air condenser versus traditional water-driven condensers and an alternative commercial air condenser in “real-world” laboratory conditions.

Synthesis labs are aware that water-driven condensers use a large amount of water which is wasteful / expensive and offer the possibility of leaks from the condenser which can result in flooding thus are keen to find an alternative. In the two independent reports the Asynt CondenSyn air condenser displayed comparable performance to even the most efficient water-driven condensers and outperformed...

Asynt's DrySyn Heating Block range now has new options enabling scientists to conduct precisely controlled heated/stirred experiments in 3 Dram vials, 20ml Scintillation vials and 2ml HPLC sample vials.

The new multi position blocks when combined with a DrySyn base unit allow up to 27 experiments to be performed in parallel. DrySyn heating blocks enable clean, safe synthesis without the hazards or problems associated with silicon oil baths or heating mantles. With no messy oil, heat resistant handles, and the most comprehensive range of simple-to-configure reaction inserts (for round bottom flasks, pear shaped flasks, boiling tubes, NMR tubes and vials) - DrySyn is the...

Asynt has introduced new reaction inserts for its DrySyn Heating Block range enabling scientists to now conduct precisely controlled heated/stirred experiments in 3 Dram vials, 20ml Scintillation vials and 2ml HPLC sample vials**.

The new multi position blocks when combined with a DrySyn base unit allow up to 27 experiments to be performed in parallel. DrySyn heating blocks enable clean, safe synthesis without the hazards or problems associated with silicon oil baths or heating mantles. With no messy oil, heat resistant handles, and the most comprehensive range of simple-to-configure reaction inserts (for round bottom flasks, pear shaped flasks, boiling tubes, NMR tubes and vials) - DrySyn is...

Asynt has introduced GasTrap gas purifiers for analytical laboratories using Gas Chromatography (GC), High Performance Liquid Chromatography (HPLC) or Mass Spectrometry (GC/MS) instrumentation.

Gas purity is essential in any GC, HPLC or GC/MS application requiring high sensitivity. Available in optimised models for Helium, Hydrogen, Nitrogen and pure air - GasTrap gas purifiers dramatically reduce the levels of contaminants, enhance the purity of lower grade helium, and help ensure instrument stability, reproducibility as well as lowering running costs. Laboratory gases for GC, HPLC and GC/MS are typically supplied in pressurised cylinders that...

Designed by chemists, Asynt ReactoMate Controlled Laboratory Reactor (CLR) systems enable precise control of reaction variables, simple manipulation of vessels and connected apparatus, and the safest possible working conditions.

Compact in design, ReactoMate CLR systems offers the flexibility to accommodate reaction vessels from benchtop to pilot plant scale. Asynt is pleased to announce a new agreement with METTLER TOLEDO to integrate their market-leading RX-10 automation system with ReactoMate CLR systems (www.asynt.com/product-category/chemistry/controlled-lab-reactors/). The METTLER TOLEDO RX-10 automation system provides an interface connecting any...

Designed by chemists, Asynt ReactoMate Controlled Laboratory Reactor (CLR) systems enable precise control of reaction variables, simple manipulation of vessels and connected apparatus, and the safest possible working conditions.

Compact in design, ReactoMate CLR systems offers the flexibility to accommodate reaction vessels from benchtop to pilot plant scale. Asynt is pleased to announce a new agreement with METTLER TOLEDO to integrate their market-leading RX-10 automation system with ReactoMate CLR systems. The METTLER TOLEDO RX-10 automation system provides an interface connecting any type and volume of ReactoMate CLR to circulating thermostats, stirrer motors...

The Asynt CryoSyn is a unique on-demand generator (available in 10, 20, 40, 60 & 120L capacity models) which generates liquid nitrogen and nitrogen gas for industrial, medical, food and agricultural, biological and general laboratory applications.

Traditionally, using liquid nitrogen (LN2) has required organisations to invest in expensive storage infrastructure and be reliant on tanker deliveries. The Asynt CryoSyn eliminates the need for storage and transportation of LN2 thereby making its use more convenient, reducing running costs and eliminating traditional evaporation / contamination problems. Generating nitrogen on demand the CryoSyn is the perfect device for...

The Asynt CondenSyn Air Condenser has been extensively tested by researchers in the renowned Cronin Group within the School of Chemistry at the University of Glasgow, UK.

Having implemented over 10 of these air condensers for use in inorganic and organic syntheses, as well as long term experimental systems, the Cronin Group were able to confirm that they now spend less set-up time and no longer have to worry over water leaking into electronic control and heating systems. In addition using CondenSyn air condensers has reduced clutter in heavily used fumehood spaces, as it eliminates the...

The Asynt CondenSyn Air Condenser has been extensively tested by researchers in the renowned Cronin Group within the School of Chemistry at the University of Glasgow, UK.

Having implemented over 10 of these air condensers for use in inorganic and organic syntheses, as well as long term experimental systems, the Cronin Group were able to confirm that they now spend less set-up time and no longer have to worry over water leaking into electronic control and heating systems. In addition using CondenSyn air condensers has reduced clutter in heavily used fumehood spaces, as it eliminates the...

Asynt announces that Rapid Powders Ltd. (Stoke-on-Trent, UK) has been using a PressureSyn High Pressure Reactor to undertake series of process experiments using small amounts of precious materials to produce optimally functionalised polymers.

Rapid Powders Limited specialise in producing polymers with dispersions of functional materials such as metals, ceramics and carbons. Applications for these specialist materials include packaging, electrically conducting polymers, thermally conducting polymers and pigments. To enable them to rapidly make small batches of these functionalised polymers, Rapid Polymers Ltd evaluated various commercial small volume high pressure reactors for safety...

The ReactoMate "Datum" is a new compact benchtop Controlled Lab Reactor (CLR) system from Asynt that offers the flexibility to accommodate reaction vessels from 100ml to 5 litres.

Reaction vessels from Asynt, and its partner AG!, can be easily exchanged on the ReactoMate "Datum" allowing chemists to quickly change between reactor vessel sizes thereby enabling simple synthesis scale-up.  A novel mounting mechanism on the stylishly designed ReactoMate "Datum" ensures excellent stability and alignment every time. Designed to fit into a standard lab fumehood the ReactoMate "Datum" is simple to set-up, easy to use and reconfigure saving you valuable time and money...

Asynt in conjunction with Biochromato (Kanagawa-ken, Japan) have developed the new DrySyn Spiral Evaporator which enables scientists to evaporate tubes directly in DrySyn synthesis blocks up to 12 samples at a time.

Many chemists in laboratories worldwide use DrySyn heating blocks to perform syntheses in parallel in flasks, tubes and vials.  Combining this proven high performance labware with patented spiral plug evaporation technology from Biochromato - the DrySyn Spiral Evaporator offers fast and effective parallel evaporation in tubes without solvent bumping. The spiral air flow generated by this unique evaporation technology allows the DrySyn Spiral Evaporator to rapidly concentrate even high...

Asynt has announced that all models in its popular DrySyn Heating Block range will now come with permanently attached, heat resistant, lifting handles to safeguard users from coming into contact with hot surfaces.

Available until recently as an removable option on DrySyn MULTI, MULTI-M and MULTI-S kits, positive customer feedback as to the considerable safety benefits of using them when lifting hot heating blocks / reaction vessels has spurred Asynt to make them a permanently attached standard feature. DrySyn single position heating blocks have always included permanently attached heat resistant safety handles. Martyn Fordham...

Asynt has developed DrySyn NMR Heating Blocks to enable safe, effective and uniform heating of up to 10 NMR tubes on a conventional hotplate stirrer. 

This new DrySyn unit allows you to use standard NMR tubes as a reaction vessel for applications including catalyst screening experiments and reaction monitoring as well as studying broad peaks, temperature dependent solubility issues and conformational changes. Unlike heating in problematic oil baths, using a DrySyn NMR Heating Blocks allows you to analyse the contents of your NMR tube almost immediately without removal...

Asynt has developed DrySyn NMR Heating Blocks to enable safe, effective and uniform heating of up to 10 NMR tubes on a conventional hotplate stirrer. 

This new DrySyn unit allows you to use standard NMR tubes as a reaction vessel for applications including catalyst screening experiments and reaction monitoring as well as studying broad peaks, temperature dependent solubility issues and conformational changes. Unlike heating in problematic oil baths, using a DrySyn NMR Heating Blocks allows you to analyse the contents of your NMR tube almost immediately without removal of residual oil on the outside...

Asynt has developed DrySyn NMR Heating Blocks to enable safe, effective and uniform heating of up to 10 NMR tubes on a conventional hotplate stirrer.

This new DrySyn unit allows you to use standard NMR tubes as a reaction vessel for applications including catalyst screening experiments and reaction monitoring as well as studying broad peaks, temperature dependent solubility issues and conformational changes. Unlike heating in problematic oil baths, using a DrySyn NMR Heating Blocks allows you to analyse the contents of your NMR tube almost immediately without removal of residual oil on the outside of the glassware...

Asynt reports on how chromatography specialists - Reach Separations Ltd. are benefiting from the installation of an onsite nitrogen generator at their laboratories in Nottingham, UK.

Reach Separations specialises in chiral chromatography for the analysis and purification of small molecules. Using state-of-the-art HPLC and SFC instrumentation, Reach Separations offer screening, method development and purification for chiral and achiral molecules across the pharmaceutical, agrochemical and fine chemical sectors.  To further enhance the speed and efficiency of their contract research service, Reach Separations recently invested in an Asynt nitrogen generator to replace their use of...

The ChilliBlock from Asynt is a new modular system purpose designed for precise, controlled cooling and heating of biological samples in microplates, vials and Eppendorf tubes.

Traditionally methods of cooling biological samples often rely upon direct immersion in ice buckets which are prone to considerable temperature variability, contamination and loss of wetted labels.  ChilliBlocks can be used directly in conjunction with an ice bath keeping your samples in microplates, vials and Eppendorf tubes cool and dry. For precise temperature controlled experiments – ChilliBlocks should be used with our cooling/heating base unit...

The DrySyn Vortex family from Asynt has been expanded to now comprise three systems, all designed to stir or blend up to three reactions at one time, whilst heating or cooling.

Stirring tasks are most often performed in laboratories using magnetic hotplate stirrers which couple to PTFE magnetic stirring bars in the reaction vessel.  Disadvantages of magnetic stirrers include that they are not suitable for highly viscous liquids or for stirring / blending reactions that have high amounts of solid which can often prove too much for the magnetic coupling. The DrySyn Vortex system was designed to enable scientists to perform multiple heated or cooled...

The DrySyn Vortex family from Asynt has been expanded to now comprise three systems, all designed to stir or blend up to three reactions at one time, whilst heating or cooling.

Stirring tasks are most often performed in laboratories using magnetic hotplate stirrers which couple to PTFE magnetic stirring bars in the reaction vessel. Disadvantages of magnetic stirrers include that they are not suitable for highly viscous liquids or for stirring / blending reactions that have high amounts of solid which can often prove too much for the magnetic coupling. The DrySyn Vortex system was designed to enable scientists to perform multiple heated or...

Using a patented vacuum-assisted vortex concentration technology, the Smart Evaporator from Asynt sets a new standard for labs tasked with drying sample tubes and vials.

The spiral air flow generated by this unique concentration technology allows the Smart Evaporator to rapidly concentrate even high boiling solvents, such as DMSO, DMF and water without heating to high temperatures. The Spiral Plug concentration technology works by using vacuum to draw air /nitrogen through a spiral slit generating a vortex which both stirs the sample and creates an increased evaporative surface area.  This unique technology...

Asynt has announced that its DrySyn Heating block range is now used by over 1000 establishments worldwide including many leading universities and highly respected companies.

First introduced over 11 years ago and continuously improved since, many scientists worldwide have come to rely on its unique design and safety features for their chemistry experiments. The DrySyn Classic was the first model introduced by Asynt to the chemistry community. Today the DrySyn range additionally includes Scholar, Multi, Maxi and Snowstorm models for heated and cooled reactions. New engineering techniques have enabled Asynt to...

The Asynt CondenSyn is a new high performance air condenser for synthetic chemistry experiments that requires no cooling water for operation.

Drawing upon over 30 years of scientific glass manufacturing knowledge, Asynt has created an affordable high-surface-area air condenser which is both safe and operationally effective.  The robust design uses a new borosilicate glass manufacturing technique and this, together with a proprietary multiple hyperbolic profile, ensures optimum heat removal as vapours pass along its length.  CondenSyn additionally incorporates a non-roll feature to help prevent accidents if left on a...

The Asynt CondenSyn is a new high performance air condenser for synthetic chemistry experiments that requires no cooling water for operation.

Organisations are growing increasingly concerned about both the environmental impact and indeed the cost of running a research facility. A condenser is often required for synthetic experiments and therefore an essential tool for the research chemist. Whilst condensers cooled by a circulating fluid such as water are effective, their constant need for running tap water creates an environmental and cost issue. Consequently such condensers should ideally be attached to a recirculating chiller...

Asynt hotplate stirrers are designed to offer synthetic chemistry laboratories a combination of affordability, top build quality and high performance without compromising on safety.

Manufactured in an ISO9001-2008 production facility, each Asynt hotplate stirrer incorporates two independent control circuits. The additional and independent safety circuit is for limiting the maximum heating plate temperature; this can be adjusted between 50 and 360 ºC but cannot be changed accidentally. This ensures that the flashpoint of your reaction solvent is not exceeded making it ideal for teaching laboratories...

Asynt hotplate stirrers are designed to offer synthetic chemistry laboratories a combination of affordability, top build quality and high performance without compromising on safety.

Manufactured in an ISO9001-2008 production facility, each Asynt hotplate stirrer incorporates two independent control circuits. The additional and independent safety circuit is for limiting the maximum heating plate temperature; this can be adjusted between 50 and 360 ºC but cannot be changed accidentally. This ensures that the flashpoint of your reaction solvent is not exceeded making it ideal for teaching laboratories. A hermetically...

Asynt announces a new range of high quality, non-ducted fume cupboards designed to sit on a standard laboratory bench.

Available in standard widths from 550mm to 900mm wide, all Asynt fume cupboards are fully compliant with COSHH regulations and international standards including BS7989:2001 for filtration fume / particulate cupboards. During manufacture, every aspect of the cabinet, from the electrics to the metalwork, is meticulously checked and monitored to ensure high reliability, optimal operation and safety is achieved. All Asynt fume cupboards employ...

Asynt has formed a partnership with Asahi Glassplant (AG!) to supply their range of high performance reaction vessels alongside, and incorporated with, its popular ReactoMate Controlled Lab Reactors.

Having visited the AG! production facility in Japan - Asynt Managing Director (Martyn Fordham commented “I was greatly impressed by the AG! glassblowing capabilities which is technically beyond what I have witnessed anywhere in the last 30 years”. He added “At Asynt our aim is always to offer the highest specification and best performing products, so consequently the AG! Glass reaction vessels fit perfectly in our portfolio.  I believe that the wider chemistry community...

Asynt won this year’s Lions’ Lair competition, which took place at Lab Innovations on Wednesday 5 November.

The company fought off competition from three other exhibitors all pitching their most innovative products to an expert panel in order to be voted best in show. The panel of Lions’ (judges) included Phillip Broadwith, Business Editor of Chemistry World, Kasia Wincoirek, Laboratory Manager at DNA Electronics, Phil Prime, Managing Editor at Laboratory News and Yahya Akudi, QC Lab Manager at Nuarfarm Ltd. Asynt won with its pioneering product, PressureSyn...

Asynt reports on how the School of Chemistry at Monash University in Melbourne, Australia has invested in a range of its DrySyn MULTI heating block systems to support its ground breaking synthetic research in photovoltaics, water splitting and nanoimaging.

In order to improve safety in his laboratories, Leone Spiccia, Professor of Chemistry at Monash University sought laboratory apparatus to replace oil bath systems traditionally used for all general syntheses. He comments  “After a lengthy evaluation process we decided to switch to DrySyn heating block systems as they are inherently safer to use than heated oil baths, avoiding the risk of oil spillage that can lead to burns when hot or may cause someone to slip over”. Professor Spiccia added “We are using DrySyn products inside our nanoimaging team...

Sygnature Discovery (Nottingham, UK) has been using an Asynt DrySyn SnowStorm system to perform low temperature reactions which have traditionally been difficult  to undertake reproducibly on a small to medium scale.

The Asynt DrySyn SnowStorm offers an attractive solution to laboratories undertaking low temperature reaction chemistries. Available in a choice of configurations, the DrySyn SnowStorm system provides controlled cooling and heating for sub-ambient parallel chemistry without the need for jacketed reaction vessels, or ice baths. Operating with a suitable chiller / circulator, a DrySyn SnowStorm system provides accurate, stable temperature control down to -50 °C and up to +150 °C....

Asynt has developed a new adaption of its Vortex overhead stirrer, called the Vortex Blend, specifically to cater for the requirement of scientists who need to test new formulations and blends in parallel.

Sygnature Discovery (Nottingham, UK) has been using an Asynt DrySyn SnowStorm system to perform low temperature reactions which have traditionally been difficult  to undertake reproducibly on a small to medium scale.

The Asynt DrySyn SnowStorm offers an attractive solution to laboratories undertaking low temperature reaction chemistries. Available in a choice of configurations, the DrySyn SnowStorm system provides controlled cooling and heating for sub-ambient parallel chemistry without the need for jacketed reaction vessels, or ice baths. Operating with a suitable chiller / circulator, a DrySyn SnowStorm system provides accurate, stable temperature control down to -50 °C and up to +150 °C...

Asynt has developed a version of DrySyn heating block purpose designed to allow scientists to perform safe, productive heating and stirring experiments with pear shaped flasks commonly used with rotary evaporators.

Pear shaped flasks are popular with organic chemists as concentrated samples can be removed much more easily than from a round bottom flask. Pear-shaped flasks are used for evaporating solutions to dryness post synthesis using a rotary evaporator, the 'rounded V' shape of the flasks enables solid materials to be scraped out more efficiently than from a round bottomed flask. Martyn Fordham, Managing Director of Asynt commented “By designing a version of the DrySyn to accept these flasks - chemists can now eliminate the need for sample transfers between reaction flask and an evaporator (pear-shaped) flask, allowing the same flask to be used for both Synthesis and Evaporation...

Asynt in conjunction with the Department of Chemistry, University of St Andrews (UK) and Advanced Chemical Safety Inc. (USA) have produced an 8-page illustrated document to provide laboratory staff with an IN BEST PRACTICE GUIDE to safe use of heating block systems.

Heating blocks provide a safe, convenient and productive alternative to heating mantles and oil baths for heating round bottomed flasks, tubes and vials. Used in combination with a standard hotplate stirrer - heating blocks such as the Asynt DrySyn range have proved themselves with their ability to outperform the heat-conducting properties of oil baths....

The new ReactoMate Pilot jacketed reaction vessel, from Asynt, offers precise control of reaction variables, a powerful direct drive overhead stirrer and excellent reaction visibility even with the vacuum jacket option.

Optimised for process scale reactions from 1 to 30 litres - the ReactoMate Pilot is available packaged with a Julabo A40 Presto Circulator to ensure superb temperature management and unrivalled performance, a ReactoMate-Pilot Super Support system to support your jacketed reactor and IKA overhead stirrer to ensure efficient reaction mixing. One of the problematic issues associated with reaction vessel set up is the cumbersome and, often dangerous, scaffolding supporting the unit.....

Asynt has designed its range of products for parallel synthesis to share standard parts (inserts) for reaction tube, vial and round-bottom flask based reactions. 

Consequently investment in an entry level DrySyn Parallel Synthesis kit provides you with an easy upgrade path to the advanced capabilities of a DrySyn Snowstorm system. The DrySyn Parallel Synthesis Kit provides a convenient, low cost solution for chemists wishing to conduct simple synthetic reactions with temperature control and magnetic stirring, but without the complications of reflux or inerting. The kit accommodates a range of standard reaction tubes and vials, of different diameters....

Asynt's Lab Safety Shield has been designed to neatly fit around popular brands of stirrer hotplate to provide protection for chemists from draughts, splashes, aerosols and spills.

Ideal for use where fumehood space is at a premium, the compact and highly affordable Asynt Lab Safety Shield provides additional protection to chemists undertaking applications such as heated parallel reactions in tubes.. The device also beneficially shields reactions from the cooling effect of fumehood ventilation, particularly important when consistent and reproducible heating to parallel experiments is required...

Asynt has announced a range of compact gas pressure reactors designed to be heated and stirred using standard hotplate stirrers with the unique DrySyn adapter that ensures excellent heat transfer.

The base vessels are available from 50ml to 500ml and are rated up to 200 Barr and 200 degrees centigrade enabling reactions including hydrogenation, carbonylation and carboxylation at elevated temperatures and pressures to be routinely performed. With the added flexibility of standard and custom DrySyn inserts, Asynt gas pressure reactors provide chemists with a platform to undertake a single reaction from 100's of microlitres, by itself or in parallel, up to a single reaction to the volume of the vessel...

The School of Chemistry at the University of Nottingham (UK) has placed a sizeable order with Asynt to upgrade their undergraduate teaching facilities with DrySyn Scholar Plus heating block systems

Available from Asynt Ltd - the Lab-Bubble™ is a versatile piece of containment equipment that can be used to provide many different types of safety or controlled environments simply by using additional components to change the function of the enclosure

Vortex Overhead Stirring Systems from Asynt Ltd. have helped Parogle Technologies (Liverpool, UK) improve the efficiency with which they synthesise novel dendritic vinyl polymers using solution or emulsion free radical polymerisation reactions

Asynt has announced the availability of new data demonstrating the outstanding performance of its DrySyn Classic heating blocks

Recent design improvements in this popular product have resulted in improved heat transfer characteristics up to 300ºC, faster heating and cooling, and a smaller footprint. Used in combination with a standard hotplate stirrer, DrySyn Classic units have proved themselves with their ability to outperform the heat-conducting properties of oil baths...