
The world fastest temperature shift platform
CherryTemp enables ultra-fast temperature shifts in the 5-45°C range.
You can control in real-time your favorite molecular processes, observe dynamic events linked to temperature on live and reveal uncovered mechanisms.
0,1°C precision
10 sec shifts
T°c room compensation
Only 10 in stock
Specific packs and methods dedicated to your applications
Customers testimonials & Universities using CherryTemp in their labs

Prof. Michael Rosen
UT SOUTHWESTERN, USA
“The Cherry Temp system was essential to acquiring some of our key data on the temperature-dependence of FUS phase separation. The system worked extremely well in these biochemical analyses. It was easy to use and robust, and required only small amounts of material.”
Visit the Rosen lab.

Dr. Julie Canman
Columbia University Medical Center, USA
“The Cherry system is now in full use in my lab and it is working beautifully on its own. The Cherry system is great for stably maintaining temperature on our microscopes”
Visit the Canman Lab

Dr. Emmanuel Derivery
MRC Lab of Molecular Biology, UK
“CherryTemp is a one-of-a kind device for the study of thermosensitive mutants and cytoskeleton dynamics. Its flexibility makes it very easy to adapt to various geometries, from cells to tissue explants or even whole animals !”
Visit the Derivery Lab

Dr. Julien Dumont
INSTITUT JACQUES MONOD, FRANCE
“CherryTemp rapidly became one of our favorite piece of equipment in the lab. It’s easy to use and works fast and well. The Cherry Biotech team is always super helpful.”
Visit Julien Dumont’s Lab

Dr. Stéphanie Dutertre
BIOSIT LABORATORY, France
“The Cherry Temp is perfect for use in imaging core facilities. Its design allows its installation on a wide panel of upright and inverted microscopes and easy training of users thus, promoting development of innovating research project. The customer service is always helpful and responsive.”
Visit Dr Dutertre’s core facility MRic

Prof. Pierre Gönczy
EPFL, SWITZERLAND
“CherryTemp allows us to perform temperature shift experiments with unprecedented speed and precision with C. elegans embryos. It is very well designed and easy to use. Moreover, we found the the customer service at Cherry Biotech to be very responsive and competent.”
Visit the Gönczy lab.

Prof. Dominique Glauser
UNIVERSITY OF FRIBOURG, SWITZERLAND
“CherryTemp was the perfect solution for us to combine precisely controlled temperature stimuli and live cell imaging in our functional studies on thermosensory neurons in C. elegans adult animals. The system is straightforward to use and we were impressed by the responsiveness of the Cherry Biotech customer service team and by the quality of the support provided.”
Visit the Glauser lab.
Dedicated methods & protocols
System photo gallery
CherryTemp fits a wide range of high resolution microscopes.
This video shows a real time infra-red camera record of our microfluidic chip submitted to two temperature inputs (8.7 and 43°C). Full stability from one temperature to the other is obtained after 10 seconds and much of the delta
Unprecedented temperature precision and stability
We performed test over 48 hours and our system never deviates from the target temperature (+/-0.3°C) even if you have important room temperature fluctuations. Indeed, our software algorythm take this into account and constantly readjusts the temperature experienced by your cells.
This video shows how to place cells on a standard cover slip and install our themalisation chip on top. This is one method using our spacer/elastomer for an inverted microscope. Our system also fits upright microscopes and you may use agar pads, hanging drop methods, tapes…
Ultrafast temperature shifts
We provide two independent temperature channels to enable fast and stable temperature changes. They are powerful and provide seemless heating and cooling in the 5-45°C range. You can change the temperature in less than 10 seconds, regardless of the delta between the two temperatures.
Publications
Discover the CherryTemp Heater Cooler
Ultra-fast shifts and temperature accuracy at the sample level