Designed specifically for single reactions in round bottom flasks up to 5,000 mL, the DrySyn single-position blocks are crafted to perfection. Equipped with impressive heating times, enhanced visibility of responses, and heat-resistant handles on each base, the DrySyn system excels in both performance and safety. Manufactured in the UK, these single-position blocks are compatible with all hotplates, making them a versatile and reliable choice.
Our initial development, the DrySyn Classic Kit, continues to be our top-selling product, thanks to its remarkable simplicity, performance, and features. This comprehensive kit is specifically designed to heat round bottom flasks in various sizes, including 50 mL, 100 mL, 250 mL, 500 mL, and 1000 mL. What's more, the DrySyn Classic Kit is equipped with adjustable and removable feet, allowing seamless compatibility with any magnetic hotplate stirrer. Additionally, it features heat-resistant safety lifting handles that are permanently attached for enhanced convenience. Renowned worldwide, the DrySyn system enables clean and safe synthesis, eliminating the hazards and issues associated with silicon oil baths or heating mantles. Offering heating rates equivalent to an oil bath, there's no need to modify your chemistry protocols either.
Our very first innovation, the DrySyn Classic Kit, continues to be a customer favorite owing to its simplicity, exceptional performance, and impressive features. This comprehensive kit is specifically designed to provide efficient heating for round bottom flasks of various sizes, including 50 mL, 100 mL, 250 mL, 500 mL, and 1000 mL. What sets the DrySyn Classic Kit apart is its versatility, as it comes with adjustable and removable feet, enabling seamless compatibility with any magnetic hotplate stirrer. Moreover, the kit boasts permanently attached heat-resistant safety lifting handles for added convenience and peace of mind.
Renowned globally, the DrySyn system revolutionizes synthesis by ensuring a clean and safe process, eliminating the hazards and drawbacks associated with silicon oil baths or heating mantles. Notably, the heating rates offered by DrySyn are comparable to those of an oil bath, alleviating the need to modify your chemistry procedures.
Featuring heat-resistant handles, the DrySyn Classic Base is specifically designed for use with 1L round bottom flasks. The remarkable design of the DrySyn range allows seamless compatibility with any standard hotplate stirrer, enabling safe and clean synthesis without the requirement of altering your chemistry protocols.
Additionally, the DrySyn Classic Base is available as part of both the complete DrySyn Classic Kit and the DrySyn Classic Starter Kit, offering comprehensive solutions for your laboratory needs.
Engineered to provide safe and clean heating for single-round bottom flasks, the DrySyn Classic system offers an ideal solution. While it is available as a complete kit, including a 1L base and inserts for 50/100/250/500 mL flasks, you also have the option to purchase each insert separately based on your specific needs.
Additionally, there is an insert specially designed for 25 mL flasks, providing even more flexibility to accommodate various flask sizes.
Introducing the DrySyn Scholar, a specially designed solution to meet the heating and stirring requirements of university chemistry teaching laboratories, all without the need for oil. The DrySyn Scholar ensures safe handling with its permanently attached lifting handles. The basic kit caters to two commonly used flask sizes as standard: 250 mL and 100 mL. It is crafted to securely fit the majority of popular hotplate stirrers and can be adapted to accommodate various hotplate stirrer shapes. Manufactured from anodized aluminium, the DrySyn Scholar offers the benefits of low mass, enabling fast heating, low power consumption, and precise temperature control.
Additionally, we offer the Scholar PLUS kit, which includes an additional 50 mL insert. It's important to note that the DrySyn Scholar is not limited to university use; it is available to all customers as a valuable addition to our full range of DrySyn products.
Introducing the DrySyn Scholar PLUS, specifically designed to cater to the heating and stirring needs of university chemistry teaching laboratories, ensuring safe and oil-free operations for round bottom flasks. As an upgrade to the standard DrySyn Scholar kit, the Scholar PLUS offers enhanced features. It provides secure and safe handling with its permanently attached lifting handles and accommodates three commonly used flask sizes as standard: 250 mL, 100 mL, and 50 mL.
The design of the Scholar PLUS enables it to fit securely on the majority of popular hotplate stirrers, while also being adaptable to fit hotplate stirrers of any shape available. It's important to note that the Scholar PLUS is not exclusive to universities; it is available to all customers, complementing the full range of DrySyn products.
Introducing the DrySyn MAXI 2L, a stand-alone version with a 2000 mL capacity, perfect for laboratory applications. It is an alternative to the standard DrySyn MAXI Kit, which includes a 3000 mL base and a 2000 mL insert. The DrySyn MAXI 2L is equipped with heat-resistant safety lifting handles, ensuring secure and safe handling during operations. With DrySyn, you can achieve clean and safe synthesis without the hazards or complications associated with silicon oil baths or heating mantles. Say goodbye to messy oil as DrySyn offers a simplified configuration with a range of inserts. Renowned worldwide, this system provides heating rates equivalent to an oil bath, eliminating the need to modify your chemistry procedures.
Experience the complete DrySyn MAXI kit, consisting of a solid aluminium base with a 3000 mL capacity and a 2000 mL adapter, providing a comprehensive solution for your laboratory needs. Equipped with heat-resistant handles, this kit ensures effortless and secure lifting during operations. It is designed to fit perfectly on standard hotplate stirrers, including popular brands like IKA and Heidolph, and features adjustable and removable feet for added versatility.
With DrySyn, you can achieve clean and safe synthesis without the hazards or complications associated with silicon oil baths or heating mantles. Bid farewell to messy oil, as DrySyn offers a streamlined configuration with a range of inserts, making it a world-renowned system. It offers heating rates comparable to an oil bath, eliminating the need to modify your chemistry protocols.
Furthermore, DrySyn delivers excellent value, providing reliable high performance without the environmental cost associated with using messy oil baths. Enjoy the benefits of DrySyn, a cost-effective and environmentally friendly solution for your laboratory heating needs.
The DrySyn range of heating blocks enables clean, safe synthesis without the hazards or problems associated with silicon oil baths or heating mantles.
This DrySyn SuperMAXI solid aluminium base takes a 5000 mL round bottom flask, and fits standard hotplate stirrers including IKA and Heidolph.
NEW: We are also pleased to announce the arrival of the SuperMAXI PLUS with an additional insert to allow the heating of 4000 mL flasks.
The DrySyn SuperMAXI PLUS is a new 4000 mL insert which fits within our 5,000 mLbase (The DrySyn SuperMAXI) to allow heating of the 4000 mL round bottom flasks. (Image shows the insert within the base unit).
DrySyn enables clean, safe synthesis without the hazards or problems associated with silicon oil baths or heating mantles.
With no messy oil, heat resistant handles, and simple to configure range of inserts this system is world renowned. There is no need to change you chemistry either as heating rates are the same as with an oil bath.
We now have DrySyn heating blocks designed to enable safe and successful heating of Schlenk Tubes.
Schlenk lines are used to successfully manipulate air sensitive compounds. The high vacuum applied is used to remove the last traces of solvent from a sample. Vacuum gas manifolds often have many ports and lines.
With careful handling, it is possible for multiple operations to be run simultaneously.
Schlenk tubes are often placed in oil baths to encourage evaporation of high boiling solvents, however by using the DrySyn Schlenk tube heating block adapter, oil baths can be eradicated and the process becomes much safer.
The DrySyn Pear-Shaped Flask System is designed to allow scientists to perform safe, productive heating and stirring experiments with pear-shaped flasks such as those commonly used with rotary evaporators.
Pear-shaped flasks are typically 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.
Providing excellent heating and stirring performance but without the inherent potential risks and mess of an oil bath, our DrySyn Pear-Shaped Flask System is a family of heating blocks perfectly designed for pear-shaped flasks from 100 mL to 1000 mL. This world-renowned system is enabling laboratory scientists to work in a safer, cleaner and more efficient way. Removing messy and potentially hazardous oil baths from your laboratory setup without the necessity to change your chemistry is beneficial to the environment on a larger scale as well as your direct environment.
DrySyn SnowStorm ONE offers controlled cooling for single round bottom flasks without having to resorting to jacketed reaction vessels.
This cost effective solution allows the chemist to use standard round bottom flasks from 50 mL to 1000 mL capacity.
As an integrated concept DrySyn SnowStorm ONE allows active temperature control of your chemistry from 160 oC to -30 oC.
Can be used on top of a hotplate stirrer for magnetic stirring or with an overhead stirrer when more viscous samples are being mixed.
The units require connection to a circulating thermostat, ultimate performance will depend upon the cooling power and temperature range of the chosen device. Can be used with all popular circulator systems such as Julabo, Huber, Grant and Lauda.
Optional insulation helps to improve performance and keep the apparatus ice free when sub zero.