2014 Center Kickoff Meeting, Dec. 11-12, 2014

Kickoff Meeting Booklet
Dec 11-12, 2014
1
Contacts
Center Director
Professor Toshi Nishida
nishida@ufl.edu
University of Florida
219 Larsen Hall
P.O. Box 116200
Gainesville, FL 32611-6200
352-392-6774
Site Director
Professor Jiann-Shiun Yuan
yuanj@mail.ucf.edu
University of Central Florida
423 Harris Engineering Center
P.O. Box 162362
Orlando, FL 32816-2362
407-823-5719
Center Deputy Director
Professor David Arnold
darnold@ufl.edu
University of Florida
213 Larsen Hall
P.O. Box 116200
Gainesville, FL 32611-6200
352-392-4931
Site Deputy Director
Professor Hyoung Jin Cho
hjcho@ucf.edu
University of Central Florida
215 Engineering I
P.O. Box 162450
Orlando, FL 32816-2450
407-823-5014
Center Coordinator
Ms. Cherrie Hughes
hughesc@ece.ufl.edu
University of Florida
206 Nanoscale Research Facility
P.O. Box 116621
Gainesville, FL 32611-6621
352-294-2266
NSF Center Evaluator
Dr. Vida Scarpello
vscarpello@bellsouth.net
352-481-5224
The MIST Center is a research consortium under the auspices
of the Industry/University Cooperative Research Centers
program at the National Science Foundation. 2
Welcome Message
On behalf of the faculty and staff of the MIST Center, we extend a hearty
welcome to you, our members and guests. We are extremely excited about
the launching of the NSF Industry/University Cooperative Research Center
on Multi-functional Integrated System Technology (MIST Center) on
December 11-12, 2014. Capabilities together with timing equals opportunity,
and the MIST Center has 30+ faculty experts and many talented students
who provide depth across a breadth of diverse areas from atom to system,
layers when integrated together catalyze unique and value-added multifunctional integrated systems. Together with our industry and government
stakeholders, the MIST Center will serve as a pre-competitive sandbox to
develop innovative concepts and inspire unexpected More-than-Moore
technologies for the Internet of Things era.
We would also like to take this opportunity to thank the many people and
organizations who have made the MIST Center a reality including NSF, the
administration of UF and UCF, our founding member companies and
agencies, our MIST faculty, staff, and students. We also would like to
acknowledge individuals who have helped with the preparations for the
kickoff meeting including Kym Mason and Sara Schaffer and the staff at the
Harn Museum of Art and the Florida Museum of Natural History.
−The MIST Leadership Team
3
Table of Contents:
I.
Agenda .............................................................. 5
II.
Kickoff Meeting Goals ........................................ 7
III.
MIST Center Vision and Approach ..................... 7
IV.
Strategic Research Portfolio and Facilities ........ 8
V.
MIST Center Capabilities ................................. 11
VI.
Poster Showcase ............................................. 19
VII. Proposed Projects ........................................... 20
VIII. Example LIFE Form ......................................... 21
IX.
For Prospective Members ................................ 23
Harn Museum of Art
4
I. Agenda
NSF I/UCRC for Multi-functional Integrated System Technology (MIST)
Kickoff Meeting
WiFi Access network:
LIFE Form website:
www.iucrc.com
ufvisitor
Password: MISTCenter
Thursday, Dec. 11, 2014:
Location: UF Harn Museum of Art, Chandler Auditorium (Across street from Hilton Conference
Center and Hotel)
8:00 am
Participant registration
8:00 - 8:30 am
Breakfast and networking time
8:30 - 8:40 am
Welcome Remarks (Dean Cammy Abernathy, College of Engineering; Toshi
Nishida, Center Director)
8:40 - 9:20 am
Kickoff Meeting Goals, Vision and Capabilities of the Center (Toshi Nishida,
Center Director and Peter Yuan, UCF Site Director)
9:20 - 10:00 am
NSF I/UCRC Presentation (Raffaella Montelli, NSF I/UCRC Program Director &
Vida Scarpello, NSF Center Evaluator)
10:00 - 10:15 am
BREAK
10:15 - 12:00 pm
Project Proposal Presentations and LIFE Forms (Moderator: Toshi Nishida)
Project 1: “Technology Development for Harsh Environment Microsensors,”
Mark Sheplak, UF
Project 2: “Laser Micromachining of 3-D Miniature Parts in Hard Materials,”
Mark Sheplak, UF
Project 3: “Directed Nanoparticle Assembly by Electrophoretic Deposition,”
David Arnold, UF
Project 4: “High-Performance CoPt Micromagnets,” David Arnold, UF
Project 5: “Gas sensors based on junction modulation,” Hyoung Jin Cho,
UCF
Project 6: “Fabrication of thin-film piezoelectric-on-silicon wireless resonant
sensors on bare silicon wafers,” Reza Abdolvand and Xun Gong,
UCF
Project 7: “Integration of microfluidic components for cancer prognosis,” Z.
Hugh Fan, UF
12:00 - 1:15 pm
LUNCH in Chandler Auditorium
12:30 - 1:00 pm
During lunch, Poster Showcase Preview (Moderator: Alexandra Garraud)
1:15 - 2:45 pm
Project Proposal Presentations and LIFE Forms (Moderator: David Arnold)
Project 8: “Simulation Tool for III-V Semiconductor Chemical / Biological
FET-based Sensors,” Erin Patrick and Mark Law, UF
Project 9: “Leveraging Emerging Technology in Hardware Security,” Yier Jin
and Jiann-Shiun Yuan, UCF
5
Project 10: “Compact Array Antennas with High Gain, Power Efficiency, and
EMI Immunity in a System-In-Package Platform,” Yong-Kyu
Yoon, UF
Project 11: “Energy harvesting from ferroelectric nanowires,” Henry Sodano,
UF
Project 12: “RF Energy Harvesting Circuit Design and Reliability Analysis,”
Jiann-Shiun Yuan, UCF
Project 13: “Ferroelectric HfO2 for Energy Storage and Non-volatile Memory
Applications,” Toshi Nishida and Saeed Moghaddam, UF
2:45 - 3:00 pm
Review of Evening and Day 2 Activities (Toshi Nishida, Center Director)
3:00 - 3:30 pm
BREAK and Room Shift to Goforth Learning Center Classroom 1
3:30 – 5:00 pm
IAB Organizational Meeting and Formative Discussion (IAB Members and
NSF Only)
•
Impressions of day 1
•
Day 2 project voting process
•
Project management & mentoring framework for selected projects
•
Election of IAB Chair and Chair-Elect (secretary)
5:00 - 5:30 pm
BREAK and Walk next door to Florida Museum of Natural History
5:30 – 7:00 pm
Poster Showcase and Reception at Florida Museum of Natural History
7:00 – 8:30 pm
DINNER at Florida Museum of Natural History
8:30 pm
Free time to visit exhibits at Florida Museum of Natural History or Harn
Museum of Art next door
Friday, Dec. 12, 2014:
Location: UF Harn Museum of Art, Goforth Learning Center Classroom 1
8:00 - 8:30 am
Breakfast and networking time
8:30 - 10:00 am
LIFE Form Review and Discussion (All Participants – at IAB Discretion,
Moderator: Vida Scarpello, Center Evaluator)
10:00 – 10:15 am BREAK
10:15 - 11:30 am
IAB Meeting (IAB Members and NSF)
•
Projects: Discussion of proposed projects, voting and discussion of results,
formulation of funding recommendation to center leadership. Finalize
discussion of topics started at the day 1 formative IAB meeting.
11:30 – 12:00 pm IAB Report Out, Discussion (IAB, Center and Site Directors, NSF)
12:00 – 12:20 pm Action Items and Plans for Next Semiannual Meeting (IAB, Center and Site
Directors & NSF)
12:20 – 12:30 pm Summary and Closing Remarks (Universities involved)
12:30 pm
ADJOURN (Lunch provided)
6
II. Kickoff Meeting Goals
The MIST Center is a NSF Industry/University Cooperative Research Center on
Multi-functional Integrated System Technology. Our mission is to facilitate
integration of novel materials, processes, devices and circuits into multi-functional
systems through research partnerships between university, industry and
government stakeholders.
The goals for the kickoff meeting are:
•
•
•
•
•
•
Articulating the vision and strategy of the MIST Center
Presenting the proposed projects
Voting and discussion of results
Electing the IAB chair and formation of bylaws
Funding recommendation to center leadership
Determining action items and timeline for next IAB meeting
III. MIST Center Vision and Approach
Our vision is:
Innovating More than Moore technologies for smart systems in the
Internet of Things era
We will accomplish this by leveraging our expertise and facilities in partnership with
our industrial and government partners. Core expertise includes orthogonal
disciplines that intersect in multi-functional integrated systems ranging from
nanostructured materials, atomic layer deposition, molecular self-assembly, low
power CMOS, sensors, magnetic MEMS, multi-functional devices, neural
engineering, biomedical devices, RF MEMS, metamaterials, interposers, statistical
signal processing, controlled sensing, and wireless communications.
The MIST Center is uniquely positioned. We bring together a cluster of crossdisciplinary faculty researchers at the two founding universities: the University of
Florida (UF) and the University of Central Florida (UCF). Located just 125 miles
apart, UF and UCF boast a combined enrollment of >15,000 engineering students.
~30 faculty in 6 departments/colleges (ECE, MAE, MSE, BME, CHE, CREOLPhotonics)
We are strategically positioned to conduct innovative research that adds value to
our stakeholders.
7
Value Proposition:
The MIST Center serves as an early-stage, research sandbox for developing
next-generation smart systems in the Internet of Things era.
n Research return on investment > 10:1
n Access to highly skilled student talent
n Intellectual beehive of university, industry, and government
stakeholders
IV. Strategic Research Portfolio and Facilities
MIST Center research project proposals are developed in partnership between MIST Center
industry/government members and faculty. MIST enables smart systems (Fig. 1) by
focusing on innovation catalyzed at the intersections of the multi-dimensional design space
(Fig. 2). The strategic research portfolio includes three cornerstones of enabling materials,
enabling processes, and enabling devices that together help create multi-functional
integrated system technology for IoT (Fig. 3).
Consumer'
Pervasive%
Connec>vity%
(Apple'iWatch)'
3D%
Electronics%
Electronic'
Components'
Integrated%
Power%
Modules%
Automo>ve'&'
Infrastructure'
Augmented%
Reality%
(Google'glass)'
Sensor%
Systems%&%
Networks%
Wireless%
Radio%
Solu>ons%
Body%Area%
Networks%
%
Energy%
Harvesters%
Structural%
Health%
Monitoring%
Energy'
Systems'
Medical%
Prostheses%
Healthcare'
Personalized%
Medicine%
Biological%
Assays%
PointCofC
Care%Devices%
MicroC
robo>cs%
Aerospace'&'
Defense'
Tracking%&%
Locators%
Fig. 1. Diversity of applications for smart systems and their enabling
components.
8
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)en
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)
Devices)
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Materials)
Po
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Fig. 2. Diversity of the design space for multi-functional integrated systems.
Enabling%
Materials%
Polymers)
Magne.cs)
Mul.ferroics)
Ferroelectrics)
Biomaterials)
Nanomaterials)
Composite)Materials)
Sensors/Actuators,)Electromagne.cs,)
Acous.cs,)Fluidics,)Power/Energy))
Enabling%
Devices%
Enabling%
Processes%
)
Direct)Write)
Nano;synthesis)
3D)Lithography)
Electrospinning)
Laser)Machining)
Atomic)Layer)Deposi.on)
Electrophore.c)Deposi.on)
MIST%
Fig. 3. Strategic research portfolio for industrially relevant research for
development of multi-functional integrated system technologies.
9
UF Facilities
Facilities available to the MIST Center include the following facilities at the
University of Florida: Interdisciplinary Microsystems Group (IMG)—IMG LabsElectrical Test, Mechanical Test, Material Test, Magnetics, Optics, Microfluidics,
Biophotonics,
Laser
Micromachining,
Microfab,
Nano
Synthesis,
Nano
Characterization, Packaging, and Prototyping; the Nanoscale Research Facility (Fig.
4)—55,000 sq. ft. open user facility with 7,300 sq. ft. class 100/1000 cleanroom;
and the Major Analytical Instrumentation Center)—Materials characterization and
analysis user facility.
Fig. 4. Nanoscale Research Facility at the University of Florida.
UCF Facilities
University of Central Florida facilities available to the MIST Center include the
Advanced Materials Processing and Analysis Center (AMPAC), Materials
Characterization Facility, and Advanced Microfabrication Facility—a multi-user
cleanroom consisting of 600 sq. ft. class 100 and 2500 sq. ft. class 1000 space.
Additionally, the MIST Center has access to the CREOL Facilities including the
Nanophotonics System Fabrication Facility (a 3,000 sq. ft. class 100/1000
cleanroom); Optoelectronic Fabrication Cleanroom; and scanning electronic
microscope facility.
10
V. MIST Center Capabilities
The strength of the MIST Center lies in its breadth and depth in the diverse areas pertaining
to multi-functional integrated systems ranging from control of materials at the atomic scale
through processing to fabricate a myriad of devices ranging from sensors to actuators and
devices from power electronics to low power logic and non-volatile memories as well as
analog, digital, and RF circuit and system expertise. The expertise of the MIST Center
faculty listed alphabetically below are captured in the word cloud image (Fig. 5).
Fig. 5. MIST Center expertise in 100 words.
Faculty Expertise
Reza Abdolvand
ECE, UCF
Resonant Micro-Electro-Mechanical Devices, Piezoelectric
Resonators and Filters, Resonant Micro-Sensors,
Thermoelectric Micro-Sensors, Micro-fabrication
11
Linan An
MSE, UCF
Nanomaterials and ceramics for MEMS
David P. Arnold
ECE, UF
Micro/nanostructured magnetic materials, electroplated
magnetic materials, magnetic microsystems (MEMS) and
electromechanical transducers, compact (<100 W)
power/energy systems, vibrational energy harvesting
systems, wireless power transmission
George Atia
ECE, UCF
Controlled sensing for inference, Statistical signal processing,
Sparse signal processing, Group testing, Cooperative
communications and cognitive radios
Rizwan Bashirullah
ECE, UF
Biomedical electronics, Low power electronics
Issa Batarseh
ECE, UCF
High efficiency/reliability power electronics
12
Hyoung Jin (Joe) Cho
MAE, UCF
MEMS component design and fabrication - magnetic
microactuators, graphene-based actuators, electroplated
microcomponents; Chemical sensors - hydrogen gas
sensors, reactive oxygen species sensors; Surface
tension driven microfluidic components – smart wetting
surfaces, mixers, pumps
Ron DeMara
ECE, UCF
Reliable computing for nanoscale
William R Eisenstadt
ECE, UF
Wireless Sensor Systems for human health and microrobotic applications, Embedded test of mixed-signal/RF
integrated circuits, Built-in-test of high-speed
input/output (I/O), packages, boards and interconnect,
Mixed-mode s-parameter measurements for high
frequency circuit design, Analog and microwave
electronic circuit design and test, Modeling of High
Speed Interconnect Performance
Z. Hugh Fan
MAE, UF
Microfluidic device fabrication, including glass,
thermoplastic and paper-based substrates, Isolation
methods for circulating tumor cells from peripheral
blood for cancer prognosis, Miniaturized platforms for
high-throughput cell-free protein synthesis
Xun Gong
ECE, UCF
Microwave filters and passive components, Wireless
passive sensors for harsh environment applications,
Antennas, phased arrays, and reflectarrays, Flexible
electronics, Micromachining, Advanced packaging,
Ceramic materials, polymer materials, ferroelectric
materials, metamaterials, Material characterization
13
Jing Guo
ECE, UF
Device modeling, simulation, and design for logic,
memory, and energy storage applications, Atomistic ab
initio simulation and design of semiconductor and oxide
materials
Yier Jin
ECE, UCF
Trusted and reliable processors and integrated circuits,
IoT/CPS device security and privacy protection,
Cryptographic hardware and embedded systems, Proofcarrying based hardware IP cores protection, Hardwaresupported cybersecurity defense solutions
Jack W. Judy
ECE, UF
Ferromagnetic MEMS/NEMS sensors and actuators,
Micromachined chemical sensors and electronic-nose
technology, MEMS Curricular Development,
Neuroengineering technologies and applications,
Applications of Micromachining and MEMS to
Neuroengineering, Neural interface system design,
implementation, and reliability, Neuroengineering
Training Program creation and operation
Mark E. Law
ECE, UF
Simulation of Semiconductor Processes, Lead Developer
of Both SUPREM-IV and FLOOPS, Simulation of
Semiconductor Devices, Lead Developer of FLOODS,
Simulation of Radiation Effects in Semiconductors – both
single event behavior and total dose response,
Simulation of Reliability in III-V device structures
Patrick LiKamWa
CREOL-Photonics & ECE, UCF
All optical switching in semiconductor MQW integrated
waveguide devices, Monolithic integrated optoelectronic
circuits based on GaAs and InP MQWs, Hybrid photonic
integrated devices based on silicon nitride, silicon
dioxide, SU-8, silicon, PMMA etc on GaAs and Si
substrates, Integrated photonic based sensors
14
Jenshan Lin
ECE, UF
Radio Frequency Integrated Circuit Design and
Monolithic Microwave Integrated Circuit Design,
Microwave System Integration, Integrated Antenna and
Active Antenna, Biomedical Applications of Microwave
Radar, Wireless Sensor, Wireless Power
Mingjie Lin
ECE, UCF
Energy-efficient comuting, Low-power circuit design and
implementation, Bio-inspired computer architecture,
Alternative computing with CMOS or emerging
technologies
Saeed Moghaddam
MAE, UF
Micro- and nanoengineering of functional structures,
Atomic layer deposition (ALD), Molecular self-assembly
and surface chemistry, Multi-scale transport
Toshi Nishida
ECE, UF
Multi-functional ferroelectric HfO2 and PZT devices for
sensor, logic, actuator, memory, and energy storage
applications, 3D micro-stereolithography for 3D polymer
microstructures, Micromachined neural electrodes,
Plastic micro-valves for lab-on-a-chip applications,
GaN/AlGaN High Electron Mobility Transistor
characterization for power and RF
Erin Patrick
ECE, UF
Electrochemical impedance spectroscopy and analysis of
complex impedance spectra of microwires,
Micromachined neural electrode design, fabrication, and
characterization, TCAD modeling and simulation of
AlGaN / GaN High Electron Mobility Transistor –
reliability and radiation effects
15
Steve Pearton
MSE, UF
Compound semiconductor materials and devices (GaAs,
InP, GaN and related alloys), Semiconductor bio and gas
sensors, Dry etching, ion implantation, annealing,
contacts to semiconductors
Fan Ren
CHE, UF
GaN/AlGaN High Electron Mobility Transistor based
MSOHEMT, Effect of radiation on GaN/AlGaN High
Electron Mobility Transistor dc and rf performance,
GaN/AlGaN High Electron Mobility Transistor based gas,
chemical and gas sensors
Mark Sheplak
ECE, UF
Design, fabrication, and characterization of highperformance, instrumentation-grade, MEMS-based
sensors and actuators that enable the measurement,
modeling, and control of various physical properties
Henry Sodano
MAE, UF
Ferroelectric Nanowires, Synthesis of High Aspect Ratio
Nanomaterials, Self-healing polymers, Embedded
Piezoelectric Sensing, Vertically Aligned Nanowire
Sensors
Kalpathly Sundaram
ECE, UCF
Thin films micromachining
16
Scott Thompson
ECE, UF
Strained semiconductor for enhanced performance,
Ultra low power CMOS electronics, Advanced Logic
Technologies
Thomas Wu
ECE, UCF
Advanced electric machinery
Huikai Xie
ECE, UF
Electrostatic, electrothermal, piezoelectric and magnetic
microactuators, Integrated gyroscopes and
accelerometers, Interface IC design, Optical MEMS,
CMOS MEMS, Integrated power passives, CMOS-carbon
nanotube integration, Endoscopic optical coherence
tomography, two-photon microscopy, 3D laser scanning
confocal microscopy, miniature Fourier transform (FT)
spectrometers
Yong-Kyu (YK) Yoon
ECE, UF
Micromachined 3D antennas and passive RF/microwave
components, Micro-/nano machined metamaterial based
resonators, filters, and antennas, Multidirectional UV
lithography for 3D microstructures, Electrospun
nanofiber based scaffolds for biomedical applications,
Ferroelectric BST for RF/microwave tunable capacitors,
filters, and phase shifters, Multiferroic FST synthesis
and, Smart biotelemetry systems
Jiann-Shiun (Peter) Yuan
ECE, UCF
Nanoelectronics device and circuit reliability, RF energy
harvesting, RF low-noise amplifier, power amplifier,
oscillator, and mixer design for reliability and variability,
Mixed-signal ICs for biomedical applications, Secure IC
design using CMOS or emerging technologies
17
VI. Poster Showcase
We present 30 posters that highlight various research activities of the MIST Faculty
and Students. These posters will be presented via a poster preview oral session
during lunch on Thursday, as well as a regular poster session prior to dinner on
Thursday.
#
P-01
P-02
P-03
P-04
P-05
P-06
P-07
P-08
P-09
P-10
P-11
P-12
Title
Microfabricated Permanent Magnets for
MEMS
Graphene Hybrids and Electroplated
Metallic Structures for Actuation and
Sensing
Process Dependence of Ferroelectricity in
CMOS Compa8ble Si-‐Doped HfO2 Thin
Films
Low Loss Conductor for Future
Communication Systems
Electro-infiltration process for
nanocomposite magnetic microstructures
Injection Micro-stereolithography for 3D
Additive Manufacturing
Development of Low Power Fluidic Control
Techniques for Lab-on-a-Chip Devices
Electrodynamic Wireless Power
Transmission to Rotating Magnet Receivers
Semiconductor Based Sensors for Bio and
Chemical Applications
Development of Micromixers and
Nanostructures for Isolation of Cancer
Cells.
Laminated Paper-based Analytical Devices
(LPAD) for Health Monitoring
A Low-Noise Silicon-Based 20um x 20um
uncooled Thermoelectric Infrared Detector
P-13
Passive Wireless Temperature Sensing with
Piezoelectric MEMS Resonators
P-14
Biofluid Activated Microbaterry for
Disposable Microsystems
P-15
MEMS Capacitive Shear Stress Sensor
Technology
Presenter
Ololade
Oniku
Xiaochen
Wang
MIST Faculty
David Arnold
(UF)
Joe Cho (UCF)
Patrick
Lomenzo
Toshi Nishida
(UF)
Arian Rahimi
YK Yoon (UF)
Xiao Wen
Aftab
Bhanvadia
Shancy
Augustine
Alexandra
Garraud
Yahsi Wang
David Arnold
(UF)
Toshi Nishida
(UF)
Toshi Nishida
(UF)
David Arnold
(UF)
Fan Ren (UF)
Jinling Zhang
Hugh Fan (UF)
Xiao Jiang
Hugh Fan (UF)
Mohammad
(Jeff)
Modarres
Seyedeh
Hediyeh
(Hedy)
Fatemi
Felipe Garay
Reza
Abdolvand
(UCF)
Reza
Abdolvand
(UCF)
Casey
Barnard
Rizwan
Bashirullah
(UF)
Mark Sheplak
(UF)
18
P-16
P-17
P-18
P-19
P-20
P-21
P-22
P-23
P-24
P-25
P-26
P-27
P-28
P-29
P-30
A MEMS Optical Moire Shear Stress Sensor
for Harsh Environment Applications
Energy-Efficient Imprecise Reconfigurable
Computing through Probabilistic Domain
Transformation
Energy-Efficient Discrete Signal Processing
with Field Programmable Analog Arrays
Neural Signal Recording IC Design and
Analysis
Robust (PUF) Circuit Design Against Aging
and Temperature Fluctuations
Split Manufacturing for RF Amplifier
Security
Self-tuning Critical Paths for Nanometerscale CMOS Aging and PVT Mitigation
Physically Obfuscated Keys based
Trustworthy Embedded System
Architecture for Secure IoT Designs
Multicore Milimeter Wave Wireless Network
On Chip Communication
Rapid Scanning Micromirrors and Their
Applications in Biomedical Imaging and
Spectroscopy
Development of a Flush-Mount Sensor
Package for a MEMS Piezoelectric
Microphone for Aeroacoustic Applications
High Q Filter/Antenna Integration
Techniques and Applications
Smart Mouthguard System for Health
Monitoring
Glass Interposer Integrated Millimeter
Wave Antennas
Seeing Through Neuronal Noise for BrainComputer Interface Applications
David Mills
Mohammed
Alawad
Yu Bai
Alex
Kritchanchai
Georgiy
Brussenskiy
Yu Bi
Navid
Khoshavi
Dean
Sullivan
Mark Sheplak
(UF)
Mingjie Lin
(UCF)
Mingjie Lin
(UCF)
Peter Yuan
(UCF)
Peter Yuan
(UCF)
Peter Yuan
(UCF)
Ron DeMara
(UCF)
Yier Jin (UCF)
Dooyoung
Kim
Can Duan
Bill Eisenstadt
(UF)
Huikai Xie
(UF)
Tiffany
Reagan
Mark Sheplak
(UF)
Tianjiao Li
Xun Gong
(UCF)
YK Yoon (UF)
Justin Correll
Seahee
Hwangbo
Alan Paris
YK Yoon (UF)
George Atia
(UCF)
19
VII. Proposed Projects
The titles of the proposed projects are listed below. Detailed executive summaries
will be provided to the member organizations.
Project
No.
Title
Researchers
1
Technology Development for Harsh Environment
Microsensors
Mark Sheplak
(UF)
2
Laser Micromachining of 3-D Miniature Parts in Hard
Materials
Mark Sheplak
(UF)
3
Directed Nanoparticle Assembly by Electrophoretic
Deposition
David Arnold
(UF)
4
High-Performance CoPt Micromagnets
David Arnold
(UF)
5
Gas Sensors Based on Junction Modulation
Joe Cho (UCF)
6
Fabrication of Thin-film Piezoelectric-on-silicon
Wireless Resonant Sensors on Bare Silicon Wafers
Reza Abdolvand
and Xun Gong
(UCF)
7
Integration of Microfluidic Components for Cancer
Prognosis
Hugh Fan (UF)
8
Simulation Tool for III-V Semiconductor Chemical /
Biological FET-based Sensors
Erin Patrick and
Mark Law (UF)
9
Leveraging Emerging Technology in Hardware
Security
Yier Jin and
Peter Yuan
(UCF)
10
Compact Array Antennas with High Gain, Power
Efficiency, and EMI Immunity in a System-InPackage Platform
YK Yoon (UF)
11
Energy Harvesting from Ferroelectric Nanowires
Henry Sodano
(UF)
12
RF Energy Harvesting Circuit Design and Reliability
Analysis
Peter Yuan
(UCF)
13
Ferroelectric HfO2 for Energy Storage and Nonvolatile Memory Applications
Toshi Nishida
and Saeed
Moghaddam
(UF)
20
VIII. Example LIFE Form
LIFE Form website:
www.iucrc.com
Password: MISTCenter
[Back]
[Review Meeting]
[PDF Summary]
[MS Word File]
MIST Center (University of Florida) - December 11th, 2014
IAB Feedback
Index of Projects
Project
Id
Title
Technology Development for Harsh
Environment Microsensors
- Mark Sheplak (UF)
01
[Evaluate
Project]
[Summary]
Laser Micromachining of 3-D Miniature Parts
in Hard Materials
- Mark Sheplak (UF)
02
[Evaluate
Project]
[Summary]
Directed Nanoparticle Assembly by
Electrophoretic Deposition
- David Arnold (UF)
03
[Evaluate
Project]
[Summary]
High-Performance CoPt Micromagnets
- David Arnold (UF)
04
[Evaluate
Project]
[Summary]
Gas Sensors Based on Junction Modulation
- Hyoung Jin Cho (UCF)
05
[Evaluate
Project]
[Summary]
Fabrication of Thin-film Piezoelectric-onsilicon Wireless Resonant Sensors on Bare
Silicon Wafers
- Reza Abdolvand and Xun Gong (UCF)
06
[Evaluate
Project]
[Summary]
Integration of Microfluidic Components for
Cancer Prognosis
- Z. Hugh Fan (UF)
07
[Evaluate
Project]
[Summary]
Simulation Tool for III-V Semiconductor
Chemical / Biological FET-based Sensors
- Erin Patrick and Mark Law (UF)
08
[Evaluate
Project]
[Summary]
Leveraging Emerging Technology in
Hardware Security
- Yier Jin and Jiann-Shiun Yuan (UCF)
09
[Evaluate
Project]
[Summary]
Compact Array Antennas with High Gain,
Power Efficiency, and EMI Immunity in a
System-In-Package Pla
- Yong-Kyu Yoon (UF)
10
[Evaluate
Project]
[Summary]
Energy Harvesting from Ferroelectric
Nanowires
- Henry Sodano (UF)
11
[Evaluate
Project]
[Summary]
RF Energy Harvesting Circuit Design and
Reliability Analysis
- Jiann-Shiun Yuan (UCF)
12
[Evaluate
Project]
[Summary]
Ferroelectric HfO2 for Energy Storage and
Non-volatile Memory Applications
- Toshi Nishida and Saeed Moghaddam (UF)
13
[Evaluate
Project]
[Summary]
21
22
IX. For Prospective Members
Item
Title
1
MIST Center Membership Agreement/ UF
2
MIST Center Membership Agreement/ UCF
3
MIST Center Brochure
23
A NSF Industry/University Cooperative Research Center (I/UCRC) for Multi-functional
Integrated System Technology (MIST)
Lead University: University of Florida, Gainesville, FL
Partner University: University of Central Florida, Orlando, FL
This Agreement is made this ____ day of ___________, 2014 by and between the University of
Florida Board of Trustees, a public corporation of the State of Florida, located in Gainesville, FL
(hereinafter called "UNIVERSITY") and ____________ (hereinafter called "COMPANY") for
the Center comprising and acting through the Center for Multi-functional Integrated System
Technology (MIST) which is defined as all Multi-functional Integrated System Technology
Center Research Sites funded by the Industry/University Cooperative Research Center Program
of the National Science Foundation.
WHEREAS, the parties to this Agreement intend to join together in a cooperative effort to
support an Industry/University Cooperative Research Center for Multi-functional Integrated
System Technology (hereinafter called "CENTER") at the UNIVERSITY to maintain a
mechanism whereby the UNIVERSITY environment can be used to perform research to translate
novel materials, devices, and manufacturing processes into multi-functional integrated systems.
The parties hereby agree to the following terms and conditions:
A. CENTER will be operated by certain faculty, staff and students at the UNIVERSITY. For the
first five years, the CENTER will be supported jointly by industrial firms, Federal laboratories,
the National Science Foundation (NSF), the State, and the UNIVERSITY. It is possible that the
UNIVERSITY may receive support from NSF for an additional ten years.
B. Any COMPANY, Federal Research and Development organization, or any Governmentowned Contractor Operated laboratory may become a sponsor of the CENTER, consistent with
applicable state and federal laws and statutes.
C. COMPANY agrees to contribute _____________ annually in support of the CENTER and
thereby becomes a member. Payment of these membership fees shall be made to the
UNIVERSITY as a lump sum due December 1st of each year of sponsorship. Checks from
COMPANY should be mailed to University of Florida Board of Trustees, CFO-Contracts &
Grants, P. O. Box 113001, Gainesville, FL 32611 and made payable to University of Florida/
Attn: I/UCRC MIST Center. Because research of the type to be done by the CENTER takes time
and research results may not be obvious immediately, COMPANY should join CENTER with
the intention of remaining a fee-paying member for at least two years. However, COMPANY
may terminate this Agreement by giving UNIVERSITY 60 days written notice prior to the
termination date.
D. There will be an Industrial Advisory Board composed of one representative from each
member. This board makes recommendations on (a) the research projects to be carried out by
CENTER (b) the apportionment of resources to these research projects, and (c) changes in the
bylaws.
24
E. UNIVERSITY reserves the right to publish in scientific or engineering journals the results of
any research performed by CENTER. COMPANY, however, shall have the opportunity to
review any paper or presentation containing results of the research program of CENTER prior to
publication of the paper, and shall have the right to request a delay in publication for a period not
to exceed 90 days from the date of submission to COMPANY, provided that COMPANY makes
a written request and justification for such delay within 30 days from the date the proposed
publication is submitted by certified mail to COMPANY. This request for delay must be
received within the 30 day timeline and should be sent by certified mail to:
Dr. Toshi Nishida
MIST Center Director
University of Florida
PO Box 116200
Gainesville, FL 32611-6200
F. All patents derived from inventions conceived or first actually reduced to practice in the
course of research conducted by the CENTER shall belong to UNIVERSITY. UNIVERSITY,
pursuant to chapter 18 of title 35 of the United States Code, commonly called the Bayh-Dole
Act, will have ownership of all patents developed from this work, subject to "march-in" rights as
set forth in this Act.
G. UNIVERSITY agrees that all such CENTER sponsors are entitled to a nonexclusive royaltyfree license. COMPANY will have the right to sublicense its subsidiaries and affiliates.
COMPANIES that wish to exercise rights to a royalty-free license must execute a license via the
UNIVERSITY and agree to pay patent application and maintenance costs.
H. If only one COMPANY seeks a license, that COMPANY may obtain an exclusive fee-bearing
license from UNIVERSITY. If COMPANY takes an exclusive license, COMPANY has the
right to sublicense its subsidiaries and affiliates.
I. Copyright registration shall be obtained for software developed by CENTER. COMPANY
shall be entitled to a nonexclusive, royalty-free license to all software developed by CENTER.
COMPANY will have the right to enhance and to re-market enhanced software with royalties
due to CENTER to be negotiated, based on the worth of the initial software, but not to exceed
25% of a fair sale price of the enhanced software product sold or licensed by COMPANY.
J. Any royalties and fees received by UNIVERSITY under this Agreement, over and above
Development expenses incurred as defined by the UNIVERSITY policy, will be distributed
according to UNIVERSITY policy.
K. Neither party is assuming any liability for the actions or omissions of the other party. Each
party will indemnify and hold the other party harmless, to the extent allowed by law, against all
claims, liability, injury, damage or cost based upon injury or death to persons, or loss of, damage
to, or loss of use of property that arises out of the performance of this agreement to the extent
that such claims, liability, damage, cost or expense results from the negligence of a party's agents
or employees.
25
<COMPANY>
<Name>
<Title>
UNIVERSITY OF FLORIDA
Roslyn S. Heath
Associate Director, Division Sponsored
Programs
________________________________
Date
___________________________________
Date
26
NSF Industry/University Cooperative Research Center (I/UCRC) for Multi-functional
Integrated System Technology (MIST)
Lead University: University of Florida, Gainesville, FL
Partner University: University of Central Florida, Orlando, FL
This Agreement is made this ____ day of ___________, 2014 by and between the University of
Central Florida Research Foundation, Inc. (hereinafter called "UCFRF"), a non-profit and direct
support organization acting as an instrumentality of the University of Central Florida
(“UNIVERSITY”) and ____________ (hereinafter called "COMPANY") for the Center
comprising and acting through the Center for Multi-functional Integrated System Technology
(MIST) which is defined as all Multi-functional Integrated System Technology Center Research
Sites funded by the Industry/University Cooperative Research Center Program of the National
Science Foundation.
WHEREAS, the parties to this Agreement intend to join together in a cooperative effort to
support an Industry/University Cooperative Research Center for Multi-functional Integrated
System Technology (hereinafter called "CENTER") at the UNIVERSITY to maintain a
mechanism whereby the UNIVERSITY environment can be used to perform research to translate
novel materials, devices, and manufacturing processes into multi-functional integrated systems.
The parties hereby agree to the following terms and conditions:
A. CENTER will be operated by UCFRF, acting on behalf of and for the benefit of the
UNIVERSITY, with certain faculty, staff and students at the UNIVERSITY. For the first five
years, the CENTER will be supported jointly by industrial firms, Federal laboratories, the
National Science Foundation (NSF), the State, and the UCFRF. It is possible that the UCFRF
may receive support from NSF for an additional ten years.
B. Any COMPANY, Federal Research and Development organization, or any Governmentowned Contractor Operated laboratory may become a sponsor of the CENTER, consistent with
applicable state and federal laws and statutes.
C. COMPANY agrees to contribute ____________ annually in support of the CENTER and
thereby becomes a member. Payment of these membership fees shall be made to the UCFRF as a
lump sum due December 1st of each year of sponsorship. Checks from COMPANY should be
mailed to University of Central Florida Office of Research and Commericialization, 12201
Research Parkway, Suite 501, Orlando, FL 32826-3246 and made payable to University of
Central Florida Research Foundation, Inc./ Attn: I/UCRC MIST Center. Because research of the
type to be done by the CENTER takes time and research results may not be obvious
immediately, COMPANY should join CENTER with the intention of remaining a fee-paying
member for at least two years. However, COMPANY may terminate this Agreement by giving
UCFRF 60 days written notice prior to the termination date.
D. There will be an Industrial Advisory Board composed of one representative from each
member. This board makes recommendations on (a) the research projects to be carried out by
CENTER (b) the apportionment of resources to these research projects, and (c) changes in the
bylaws.
27
E. UCFRF, on behalf of the UNIVERSITY, reserves the right to publish in scientific or
engineering journals the results of any research performed by CENTER. COMPANY, however,
shall have the opportunity to review any paper or presentation containing results of the research
program of CENTER prior to publication of the paper, and shall have the right to request a delay
in publication for a period not to exceed 90 days from the date of submission to COMPANY,
provided that COMPANY makes a written request and justification for such delay within 30
days from the date the proposed publication is submitted by certified mail to COMPANY. This
request for delay must be received within the 30 day timeline and should be sent by certified
mail to:
Dr. Jiann-Shiun Yuan
MIST Site Director
University of Central Florida
423 Harris Engineering Center
P.O. Box 162362
Orlando, FL 32816-2362
F. All patents derived from inventions conceived or first actually reduced to practice in the
course of research conducted by the CENTER shall belong to UCFRF. UCFRF, pursuant to
chapter 18 of title 35 of the United States Code, commonly called the Bayh-Dole Act, will have
ownership of all patents developed from this work, subject to "march-in" rights as set forth in
this Act.
G. UCFRF agrees that all such CENTER sponsors are entitled to a nonexclusive royalty-free
license. COMPANY will have the right to sublicense its subsidiaries and affiliates.
COMPANIES that wish to exercise rights to a royalty-free license must execute a license via the
UNIVERSITY and agree to pay patent application and maintenance costs.
H. If only one COMPANY seeks a license, that COMPANY may obtain an exclusive fee-bearing
license from UCFRF. If COMPANY takes an exclusive license, COMPANY has the right to
sublicense its subsidiaries and affiliates.
I. Copyright registration shall be obtained for software developed by CENTER. COMPANY
shall be entitled to a nonexclusive, royalty-free license to all software developed by CENTER.
COMPANY will have the right to enhance and to re-market enhanced software with royalties
due to CENTER to be negotiated, based on the worth of the initial software, but not to exceed
25% of a fair sale price of the enhanced software product sold or licensed by COMPANY.
J. Any royalties and fees received by UCFRF under this Agreement, over and above
Development expenses incurred as defined by the UCFRF policy, will be distributed according
to UNIVERSITY policy.
K. Neither party, nor UNIVERSITY, is assuming any liability for the actions or omissions of the
other party. To the extent of applicable law, each party will indemnify and hold the other party
harmless, to the extent allowed by law, against all claims, liability, injury, damage or cost based
upon injury or death to persons, or loss of, damage to, or loss of use of property that arises out of
28
the performance of this agreement to the extent that such claims, liability, damage, cost or
expense results from the negligence or willful misconduct of a party's agents or employees.
<COMPANY>
<Name>
<Title>
UNIVERSITY OF CENTRAL FLORIDA
RESEARCH FOUNDATION
<Name>
<Title>
___________________________________
Date
_________________________________
Date
29
30
31