Luke P. Lee (Advisor)

BPN884: Single Atom Catalysts for Robust Gas Sensing

Doyeon Bang

2018

Proton transportation is ubiquitous in biological signaling as well as enabled a broad range of modern device components. However, proton conductor using tunable, controllable and mass producible biological material is not yet developed for in vivo application to interface biological system. Here, we demonstrate anisotropic proton transport in the artificially aligned collagen fiber network, which is mimicking the nematic structure of the muscle fiber to show that aligned collagen can assist biological signaling as a protonic highway. Artificially aligned nematic collagen fiber...

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BSAC's Best: Spring 2012 Winners Announced

March 9, 2012

BSAC would like to thank the 170 researchers who presented their work in poster or plenary sessions at the Spring 2012 BSAC Research Review on March 7-9.

50 attending industrial members from 32 member organizations voted for the best presentations and posters, resulting in Best Paper and Best Poster awards (certificate and cash).

Best Paper Ivan...

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BSAC Researchers Advised by Professor Luke P. Lee

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BSAC's Best: Fall 2011 Winners Announced

September 23, 2011

BSAC would like to thank the 170 researchers who presented their work in poster or plenary sessions at the Fall 2011 BSAC Research Review on September 21-23.

70 attending industrial members from 32 member organizations voted for the best presentations and posters, resulting in Best Paper and Best Poster awards (certificate and cash).

Best Paper...

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MEMS Based Capillary Pumped Loops for Integral Thermal Management

Kip Pettigrew

Dorian Liepmann

Luke P. Lee

Ralph Grief

2002

In continuation of the work performed on the micro-capillary pumped loop (CPL), a Micro Electro Mechanical Systems (MEMS) based CPL was designed built and tested to remove heat over a 1 cm2 ...

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Microfluid Integrated Nano-Scale Biological Cell Probes

Jesse Herrick

Albert P. Pisano

Luke P. Lee

Lydia L. Sohn

2004

Standard techniques for biological research have proven extremely informative in the past, and will most likely see a continued use in years to come. However, with the correct implementation of some of todays leading technologies on the micro and nano scale, biological research could potentially see extraordinary advances in the...

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Engineering Optical Antenna for Efficient Local Field Enhancement

Tae Joon Seok

Ming C. Wu

Eli Yablonovich

Luke P. Lee

2012

Optical antennas have been widely used for variety of applications such as sensitive photodetection, efficient light emission, high-resolution imaging, heat-assisted magnetic recording, and surface-enhanced Raman spectroscopy (SERS) because they can capture and focus propagating electromagnetic energy into subdiffraction-limited areas and vice versa. However, widespread application of optical antennas has been limited due to lack of appropriate methods for uniform and large area fabrication of antennas, as well as difficulty in achieving an efficient design with small mode volume (gap...

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Lab-on-a-Chip Mechanical and Optical Components

Nikolas Chronis

Luke P. Lee

Lisa Pruitt

Albert P. Pisano

Richard S. Muller

2004

The present work aims to provide new tools for the manipulation and detection of biological samples. They can be envisioned as individual components of an integrated, lab-on-a-chip system. A novel SU-8 microgripper is introduced for the manipulation of single cells or other biological species in solution with minimal undesired interactions. The electrothermally activated polymer gripper consists of two SU-8 ‘hot-and-cold-arm’ actuators that are fabricated in a two-mask...

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Electro Micro-Metrology

Jason Clark

Kristofer S. J. Pister

James Demmel

Sanjay Govindje

Luke P. Lee

2005

Electro Micro-Metrology (EMM) is a novel methodology for precision metrology, sensing, and actuation at the micro- and nano-scale. EMM is well-suited for tiny technology because it leverages off the electromechanical benefits of the scale. EMM is the method of using micro- or nano-scale devices to measure and characterize themselves, other devices, or whatever the devices subsequently interact with. By electronically measuring the change in capacitance, change in voltage, and/or resonant frequency of just a...