ECS Connections to 2014 Physics Nobel Prize

The 2014 Nobel Prize in Physics has been awarded to Shuji Nakamura, a professor at the University of California

Shuji Nakamura, the recipient of the 2014 Nobel Prize in Physics and former ECS Plenary speaker, is awarded for his invention of efficient blue light-emitting diodes.
Credit: Randall Lamb

The 2014 Nobel Prize in Physics has been awarded to Shuji Nakamura, professor of materials and of electrical and computer engineering at the University of California and 2010 ECS Plenary speaker.

The prize is for the invention of efficient blue light-emitting diodes, which has enabled bright and energy-saving white light sources, and is shared with ECS member Isamu Akasaki of Meijo University and Nagoya University, Japan; and Hiroshi Amano of Nagoya University.

In his plenary talk at the 218th ECS Meeting in Las Vegas, Nevada, Nakamura described the current status of III-nitride based light emitting diodes (LEDs) and laser diodes. Nitride-based white LEDs have been used for many application such as LCD TV backlight, lighting for inside/outside applications and others.

According to the Royal Swedish Academy of Sciences, when Nakamura, Akasaki and Amono “produced bright blue light beams from their semiconductors in the early 1990s, they triggered a fundamental transformation of lighting technology. Red and green diodes had been around for a long time, but without blue light, white lamps could not be created. Despite considerable efforts, both in the scientific community and in industry, the blue LED had remained a challenge for three decades.”

The LED lamp “holds great promise for increasing the quality of life for over 1.5 billion people around the world who lack access to electricity grids,” the academy continued.

Here’s a list of articles in the ECS Digital Library written by the 2014 Physics Nobel Prize Winners. You can look at them for free:

Hiroshi Amano and Isamu Akasaki

Widegap Column-III Nitride Semiconductors for UV/Blue Light Emitting Devices

Growth and Luminescence Properties of Mg-Doped GaN Prepared by MOVPE

Isamu Akasaki

Epitaxial Growth and Properties of AIxGal.xN by MOVPE

Etching Characteristics and Light Figures of the {111} Surfaces of GaAs

Shuji Nakamura

Piezoelectric Field in Semi-Polar InGaN/GaN Quantum Wells

Read more about Shuji Nakamura’s plenary talk.

Read more about 2014 Nobel Prize winners for Physics.

First Graphene-Based Flexible Display Produced

"This is a significant step forward to enable fully wearable and flexible devices ." -Andrea Ferrari, Director of the Cambridge Graphene Centre

“This is a significant step forward to enable fully wearable and flexible devices .”
-Andrea Ferrari, Director of the Cambridge Graphene Centre

There has been quite the buzz around graphene lately. With this material being among the strongest and most lightweight known, it has the potential to revolutionize industries from healthcare to electronics. And revolutionize is exactly what the Cambridge Graphene Centre (CGC) and Plastic Logic have set out to do.

With the CGC’s graphene expertise and Plastic Logic’s already developed technology for flexible electronics, the two came together to demonstrate the first graphene-based flexible display.

This from University of Cambridge:

The new prototype is an active matrix electrophoretic display, similar to the screens used in today’s e-readers, except it is made of flexible plastic instead of glass. In contrast to conventional displays, the pixel electronics, or backplane, of this display includes a solution-processed graphene electrode, which replaces the sputtered metal electrode layer within Plastic Logic’s conventional devices, bringing product and process benefits.

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