logo-cenBurke’s team used soft lithography to etch a silicon chip that served as a mold to make a nanofluidics device out of the polymer polydimethylsiloxane…Read more.


logo-cenThe Department of Defense (DoD) announced plans today to make 32 awards to academic institutions to perform multidisciplinary basic research…Read more.


logo-cenGraduate student Nima Rouhi in Peter Burke’s group have been studying these unusual transistors, which contain channels made with carbon nanotube ink…Read more.


logo-cenChris Rutherglen and Peter Burke of the University of California, Irvine developed their own nanotube radio by exploiting the nonlinear current–voltage characteristics of a singlewalled carbon nanotube that was fixed to electrodes at both ends…Read more.


logo-cenA carbon nanotube 10,000 times as thin as a human hair turns radio waves into music, acting like a tiny radio, by researchers at the University of California, Irvine…Read more.


logo-cenAccording to a University of California team, the study marks the first time that a nano-sized detector has been demonstrated in a working radio system…Read more.


logo-cenChris Rutherglen, the grad student at the University of California at Irvine, has constructed a key part–a demodulator out of a carbon nanotube 50 microns long and about 1.5 nanometers wide…Read more.


logo-cenCarbon nanotubes can route electrical signals on a computer chip faster than traditional copper or aluminum wires…Read more.


logo-cenThese 0.4 cm nanotubes are 10 times longer than previously created electrically conducting nanotubes…Read more.


logo-cenUC Irvine announced that scientists at The Henry Samueli School of Engineering have synthesized the world’s longest electrically conducting nanotubes…Read more.