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semiconductors

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Entering an emerging product market through IP and new technology capability transfer

Dowa had significant materials expertise and in-house R&D, but lacked the knowledge to manufacture and develop an emerging product category of LED-based products.

Meeting a high-value, custom application need through low-cost, novel electronics

PARC scientists delivered the key components for a tape-like blast dosimeter with integrated memory, control electronics, and multiple sensors – which could be fabricated through printing techniques or be compatible with roll-to-roll processing (key for enabling the novel form factors and low cost), and be customized to specific application needs.

Enabling value-added offerings for new market

While BASF has significant chemistry expertise, it needed to integrate electronics into its materials to capture value-added opportunities with customers in the display market.

2013

In-well pumped blue GaN-based vertical-external-cavity surface-emitting lasers

Japanese Journal of Applied Physics, a special issue on Recent Advances in Nitride Semiconductors

August 2013

2011

 

 

recent resources

Leveraging Multiple GPUs and CPUs for Graphlet Counting in Large Networks

Filament Extension Atomizer

PARC has developed the Filament Extension Atomizer (FEA) to address problems arising from difficult to spray materials. This technology is capable of spraying materials previously either difficult or impossible to spray for a wide range of applications including spray coating, particle creation, spray drying, drug delivery, or powder coatings.

Metamaterial Devices & Applications

Metamaterials (i.e., engineered electromagnetic structures), are poised to disrupt industries, create entirely new markets, and change society. The ability to design and fabricate materials with new functionalities opens the door to a new world of possibilities ¾it is now possible to realize Harry Potter’s invisibility cloak and optical black holes, which we once thought was impossible. Beyond the realms of science fiction, metamaterials can be tailored to either augment the functionality of existing devices or create new devices with superior performances.