Fusion
Absolute
The first imager for absolute
protein quantification
The FUSION ABSOLUTE is the first ultra-precise photon counting instrument enabling you to achieve absolute quantification. Its automated analysis capabilities allow you to detect, decode and quantify your protein of interest with certitude. This high-end system dedicated to all your chemiluminescence and fluorescence applications combines unrivalled sensitivity and effortless analysis to offer you the greatest level of performance. With its wide choice of customizable light sources, it’s a one-of-a-kind molecular imager opening the way to infinite multispectral imaging possibilities.
ABSOLUTE DESIGN
The FUSION ABSOLUTE is a new exploration tool to accelerate your research via a highly reliable and simplified imaging process. Explore our product in 3D and discover a world of extreme precision for limitless experiments.
Choose your configuration
You are used to working on computer-based systems? The non-display version of the FUSION ABSOLUTE offers similar performance in a compact, practical format. Both systems are made of aluminum and stainless steel, ensuring long-term robustness and compliance with European equipment safety standards.
Enjoy full-scale visualization
The design of the FUSION ABSOLUTE has been optimized by our R&D team to offer you the widest touchscreen in the market while perfectly fitting in your lab. Adjust screen orientation and view vibrant images in high resolution. Not only is the screen bigger than ever, but the images are displayed in larger size too.
THEY RELY ON FUSION
Today, our engineering company has made its way into the imaging sector: over 60,000 users worldwide, including several Nobel Prize winners, rely on our imagers. Check out the latest publications mentioning our FUSION range.
| 2024 | Allemagne |
Muñoz-Gutierrez V, Cornejo FA, Schmidt K, Frese CK, Halte M, Erhardt M, Elsholz AKW, Turgay K, Charpentier E. |
| 2024 | Israël |
Wnt signaling regulates chemokine production and cell migration of circulating human monocytes Zelikson, N., Ben, S., Caspi, M. et al. |
| 2024 | Allemagne |
In pursuit of a minimal CHO genome: Establishment of large-scale genome deletions Tobias Jerabek, Linus Weiß, Hannah Fahrion, Nikolas Zeh, Nadja Raab, Benjamin Lindner, Simon Fischer, Kerstin Otte |
| 2024 | Suisse |
Tsouka, S., Kumar, P., Seubnooch, P. et al. |
| 2023 | Corée du Sud |
Kim, HJ., Shin, HR., Yoon, H. et al. |
| 2023 | Japon |
Toshiya Oba, Daiki Homma, Sophia Jobien M. Limlingan, Aoi Fukuchi, Akiko Asada, Taro Saito, Kanae Ando |
