October 2011
Dr. Michael Carmody Presents at Non-Impact Printing. Oct 1-6 in Minneapolis, Minnesota

April 2011
New Product Launch - Intrinsiq Materials launches an innovative screen print copper ink With immediate availability, Intrinsiq Materials announce the launch of Intrinsiq CP, a prototype, stable, cost effective 80wt% copper screen print ink formulation designed for photonic curing at room temperature in air. The ink is the latest in a range of ink formulations utilising Intrinsiq's novel nanoparticle technology and designed for photonic curing in air at room temperature. The first product is CP-001, primarily for use on paper substrates. CP formulations optimised for other substrates will be announced later in the year. Conductivities and performance are typically comparable with commercially available silver pastes.


March 2011
Intrinsiq Materials to lead a new Solar programme
Intrinsiq Materials, along with its partners Brunel University, G24 Innovations and Exxelis have been successful in winning a UK Technology Strategy Board Programme - CONVERTED - to develop new technologies to enhance the performance of Dye Sensitised Solar Cells (DSSC).

See TSB Press Release

Dec 2010
Intrinsiq Materials Ltd. Receives Business Innovation Award Intrinsiq Materials Limited, a private advanced materials company announced today that it was recognized as one of three British businesses to receive a Business Innovation Award for Emergimng and nanotechnology at the 5th annual UK TechWorld and NanoForum event in London.

March 2010
New Product Launch – Intrinsiq CI copper nanoparticle based ink for printed electronics applications
Intrinsiq Materials launches an innovative inkjet printable copper ink
With immediate availability, Intrinsiq Materials announce the launch
of ‘Intrinsiq CI’, a stable, cost effective 12wt% copper ink formulation designed for photonic curing at room temperature in air. The ink is the first product in a range of ink formulations for use with industry standard commercial inkjet systems on a variety of substrates including paper, polyimide and FR4, producing conductivities typically comparable to commercial silver inks with significantly higher metal loadings.