News & Events
John O. Dabiri, Professor of Aeronautics and Bioengineering, will become Dean of Undergraduate Students, effective July 1, 2014. Professor Dabiri was suggested for this position by several Institute constituencies and enjoys the confidence and respect of students and faculty alike. He is particularly committed to enhancing faculty-student interactions.
Julia R. Greer, Professor of Materials Science and Mechanics, has been selected as a 2014 Young Global Leader by the World Economic Forum. Each year the selection Committee, which is headed by Her Majesty Queen Rania Al Abdullah of the Hashemite Kingdom of Jordan, identifies and recognizes the most distinguished leaders under the age of 40, nominated from around the world. Candidates are selected based on their proven track record of professional accomplishments, breadth of their expertise, commitment to society and their ability to overcome adversity.
Ali Hajimiri, Thomas G. Myers Professor of Electrical Engineering, and colleagues have developed a new light-bending silicon chip that acts as a lens-free projector--and could one day end up in your cell phone. They were able to bypass traditional optics by manipulating the coherence of light—a property that allows the researchers to "bend" the light waves on the surface of the chip without lenses or the use of any mechanical movement. [Caltech Release]
The EAS Division has added a new department to its roster: the Department of Medical Engineering (MedE). The new department was formed to take advantage of Caltech's commitment to basic science, using this focus as a stepping-stone to finding fresh avenues to developing diagnostic tools, medical devices, and treatment options, in translational, or "bench-to-bedside," medicine. Chair Rosakis explains that the MedE department was formed "in response to the desire of many of our faculty and of local research hospitals and medical foundations to engage jointly in engineering-centric technology development efforts for medical applications." To that end, the MedE department is already partnering with the Keck School of Medicine of USC, UCLA's Geffen School of Medicine, City of Hope, the UCSF School of Medicine, and Huntington Memorial Hospital, among others. [Caltech Release] [ENGenious Article]
Axel Scherer, Bernard Neches Professor of Electrical Engineering, Applied Physics and Physics, will be giving the next Caltech Earnest C. Watson Lecture on November 6, 2013 at 8pm. His lecture is entitled From Lab-on-a-Chip to Lab-in-the-Body and will focus on the role of nanotechnology in the miniaturization of medical diagnostic tools. [Caltech Release] [ENGenious Article]
Julia R. Greer, Professor of Materials Science and Mechanics, and colleagues have created nanostructured, hollow ceramic scaffolds, and have found that the small building blocks, or unit cells, display remarkable strength and resistance to failure despite being more than 85 percent air. The general fabrication technique the researchers have developed could be used to produce lightweight, mechanically robust small-scale components such as batteries, interfaces, catalysts, and implantable biomedical devices. [Caltech Release]
John O. Dabiri, Professor of Aeronautics and Bioengineering, has been selected by the editors of MIT Technology Review as one of this year's Innovators Under 35. He joins a group of exceptionally talented young innovators whose work is believed to have the greatest potential to transform the world. Professor Dabiri was chosen for his bioinspired engineering work on wind farms. [MIT Technology Review Article]
Changhuei Yang, Professor of Electrical Engineering and Bioengineering, and colleagues have shown how to make cost-effective, ultra-high-performance microscopes. The final images produced by their new system contain 100 times more information than those produced by conventional microscope platforms. And building upon a conventional microscope, their new system costs only about $200 to implement. This new method could have wide applications not only in digital pathology but also in everything from hematology to wafer inspection to forensic photography. [Caltech Release]
Yu-Chong Tai, Professor of Electrical Engineering and Mechanical Engineering, and colleagues have developed a portable device to count white blood cells that needs less than a pinprick's worth of blood and takes just minutes to run. The heart of the new device is a 50-micrometer-long transparent channel made out of a silicone material with a cross section of only 32 micrometers by 28 micrometers—small enough to ensure that only one white blood cell at a time can flow through the detection region. The stained blood sample flows through this microfluidic channel to the detection region, where it is illuminated with a laser, causing it to fluoresce. [Caltech Release]