34 IR hotplate/stirrer delivers superior heating and mixing
The latest infrared heating technology has been used in the design of the WH280-NH hotplate-stirrer from Wiggens. Thanks to this radiation heating technology, the Wiggens WH280- NH can be used for rapid heating up of various shaped vessels, including round-bottom flasks, and the solution inside can be heated up to a maximum of 450°C in a very short time.
The new Wiggens hotplate stirrer enjoys the benefits of a Schott glass ceramic surface with exceptional chemical resistance, a high surface quality, and a resistance to temperature shocks of more than 700°C, providing users with an optimal solution compared to conventional heating surface materials. The poreless smooth surface enables even the most stubborn dirt to be easily cleaned. The high infrared permeability ensures that the heating energy is transferred quickly and with very limited loss, therefore, it heats liquids fast and saves time and energy. Preseting 3 sets of PID for different volume heating applications enables self-optimising to reach perfect temperature stability.. If the Pt-100 sensor is connected, temperature-controlled work with stability of +/- 2°C can be reached in most applications.
In addition to rapid heating capability and superior temperature control, the WH280-NH also offers well controlled gentle to intense mixing of liquids, and is also suitable for large volume viscous media. The stirring and heating can be controlled separately by convenient turning knobs. All functions can be viewed and monitored on a bright touch screen, including most frequently used parameters, such as, working temperature, stirring speed, working time, and safety temperature. Memory function for stirring speed and temperature setting makes it convenient to start the experiments with fixed conditions. A residual-heat display protects the users from burning their hands.
With the aforementioned benefits, and many other features, the Wiggens hotplate stirrer is the optimal solution for heating and mixing of liquids in laboratories. Its capabilities extend to a wide range of applications, including the precise requirements of cannabis extraction.
More information online:
ilmt.co/PL/gP3P and
ilmt.co/PL/Q2Qe
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Extended InGaAs IR detectors enhance spectroscopy applications
CELEBRATE SUCCESS IN 2025 AWARDS
The Labmate Awards for Excellence 2025 are the laboratory sector’s celebration of achievements and best practice worldwide
Recognising success and progress across our industry in 2025
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The Labmate Awards for Excellence 2025 seek to recognise innovation, quality and achievement wherever it occurs within the laboratory sector.
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Launching this year the Labmate Awards for Excellence 2025 will have eight voting categories chosen to refl ect the broad range of noteworthy contributions that have been made across our industry in the past 12 months.
Nominate your company today within the following categories:
- Innovation of the Year for a product or service - Best supplier and end-user partnership - Best customer service - Best marketing campaign - Best IT solution
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The IG26H series from Laser Components expands the existing lineup of high-quality IG26 extended InGaAs infrared (IR) PIN photodiodes, offering low dark current under reverse bias conditions with excellent thermal performance. This advancement minimises the need for additional cooling solutions, making it an efficient choice for demanding applications.
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Designed with high shunt resistance and exceptional responsivity across a broad spectrum, the IG26H series provides a peak responsivity of 1.45 A/W, ensuring enhanced sensitivity for spectroscopic and radiometric measurements. The detectors also feature a 50% cut-off wavelength exceeding 2.45 µm, enabling precise performance in critical applications.
*Average Pass-on rate = 3.2
To accommodate various operational requirements, the IG26H series is available in TE1 and TE2 packages for thermoelectric cooling, as well as an uncooled TO-can version. These detectors are ideally suited for applications such as spectrophotometry, diode laser monitoring, flame control, and gas detection.
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LABMATE UK & IRELAND - MARCH 2025
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