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Introduction & Core Technology Application & Validation °Ç¸ç³Ô¹Ï (CT) presents a novel patented portfolio of innovative dyes excited by UV wavelength lasers (320 nm and 355 nm), offering exceptional properties for advanced flow cytometry. Differentiated Chemistry: Patented molecular (non-polymer) and non-tandem structure will eliminate the common degradation and performance limitations associated with some conventional UV […]

°Ç¸ç³Ô¹Ï Dyes Our innovative, patented molecular dyes feature a highly differentiated, non-tandem polymer chemistry designed to eliminate the common performance issues associated with existing polymer-based UV dyes. Excitable under 320 nm and 355 nm lasers, these highly tuneable dyes possess long Stokes shifts and can be engineered for precise emissions across the visible spectrum, with […]

We will be attending the the Midlands Innovation Flow Cytometry Conference 2026, hosted at the Edgbaston Park Conference Centre, University of Birmingham. We invite you to visit us during the event and explore our latest work at our poster presentation. Poster Title (Sareena Sund): Novel 355nm (and lower) excitable and Tuneable Emission (Blue through Red) Fluorophores […]

We will be attending the the Midlands Innovation Flow Cytometry Conference 2025, hosted at the Interdisciplinary Biomedical Research Building, University of Warwick. We invite you to visit us during the event and explore our latest work at our poster presentation. Poster Title (Sunil): °Ç¸ç³Ô¹Ï Dye Technology: A Modular and Scalable Chemical Approach to Produce a […]

°Ç¸ç³Ô¹Ï recently won a prestigious Innovate UK Smart Award to co-fund a £0.5m project. Innovate UK, the UK’s innovation agency’s co-funding represents 70% of the project’s costs. °Ç¸ç³Ô¹Ï is developing 70+ innovative patented UV excitable dyes which emit blue through to red (and potentially into the Near IR) for use in flow cytometry, and biomedical […]

Will brings a wealth of C-suite experience serving in CEO and CFO roles in private equity companies after a decade of experience working in KPMG.

Background: °Ç¸ç³Ô¹Ï Dyes for Flow Cytometry: The chemical modularity of °Ç¸ç³Ô¹Ï fluorescent dye technology has allowed 50+ UV excitable fluorescent dyes to be created that emit across the visible spectrum (395 – 635 nm, and potential for reaching into IR emission), without the need for tandem dye based approaches, and their drawbacks for end-users. Previously […]

Background: °Ç¸ç³Ô¹Ï Dyes for Flow Cytometry: The chemical modularity of °Ç¸ç³Ô¹Ï fluorescent dye technology has allowed 50+ UV excitable fluorescent dyes to be created that emit across the visible spectrum (395-635nm, and potential for reaching into IR emission), without the need for tandem dye based approaches, and their drawbacks for end-users. Previously we demonstrated that […]

Executive Summary °Ç¸ç³Ô¹Ï dyes (CT-Dye) all have a similar excitation spectra from ~260 nm to ~425nm, but can be chemically tuned to emit with emission maxima ranging from 395 nm to over 600 nm with large extinction coefficients (generally >100 000 M-1 cm-1) and quantum yields of ~50%, with ~80 different CT-Dye examples. Therefore, the […]

Executive Summary The °Ç¸ç³Ô¹Ï molecular dyes have the potential to deliver many D(UV) dye-antibody conjugates for the spectral flow cytometry market with differentiated colours to allow multiplexing beyond the ~50 limit seen to date with the recent emergence – and rapid market uptake –  of commercial spectral flow cytometers, e.g. Thermofisher Scientific (Bigfoot), Sony Biotechnology […]