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Philip Feng
Case Western Reserve University
$2,758,629
Attributed
$5,809,312
Total exposure
12
Grants
7
Lead (contact PI)
Attributed= this PI's even-split share of every grant they're on (the fair, additive number). Exposure = full size of all those grants.
Funding over time
peak $1.4M · FY2011–23$2M$1.5M$1M$500K$0
'11
'12
'13
'14
'15
'16
'17
'18
'19
'20
'21
'22
'23
Funding mix
By agency
NSF$5,809,312 · 12
By mechanism
—$5,809,312 · 12
Top collaborators
- Christian A Zorman1 shared
- Gloria J Kim1 shared
- Gregory A Hudalla1 shared
- Jack W Judy1 shared
- Jesse A Berezovsky1 shared
- Jing Guo1 shared
- Joao Maia1 shared
- Matthew A Willard1 shared
Grant awards (12)
QuSeC-TAQS: Driving Advances in Magnetic Materials and Devices with Quantum Sensing of Magnons$995,658
· FY2023 · MPS
Collaborative Research: Innovating Quantum-Inspired Learning for Undergraduates in Research and Engineering$1,250,000
· FY2022 · EDU
EAGER: Collaborative Research: Graphene Nanoelectromechanical Oscillators for Extreme Temperature and Harsh Environment Sensing$158,938
· FY2022 · ENG · contact PI
NanoFlorida 2022$18,660
· FY2022 · ENG
Collaborative Research: FET: Small: Massive Scale Computing and Optimization through On-chip ParameTric Ising MAchines (OPTIMA)$220,000
· FY2021 · CSE · contact PI
CAREER: Dynamically Tuning 2D Semiconducting Crystals and Heterostructures for Atomically-Thin Signal Processing Devices and Systems$224,526
· FY2019 · ENG · contact PI
Collaborative Research: Harnessing Crystalline Phase Transition in 2D Materials for Ultra-Low-Power and Flexible Electronics$145,121
· FY2019 · ENG · contact PI
Collaborative Research: Harnessing Crystalline Phase Transition in 2D Materials for Ultra-Low-Power and Flexible Electronics$211,500
· FY2018 · ENG · contact PI
CAREER: Dynamically Tuning 2D Semiconducting Crystals and Heterostructures for Atomically-Thin Signal Processing Devices and Systems$521,000
· FY2015 · ENG · contact PI
Self-Sustaining Tunable Multi-Frequency Oscillators Using Atomically-Thin Semiconducting Multimode Resonators$419,528
· FY2015 · ENG · contact PI
SNM: A Versatile Microplasma-based Patterning Technology for Large-Scale, High Throughput Nanomanufacturing$1,228,381
· FY2012 · ENG
SHF: Small: Device-Circuit-Architecture Co-Design for Reconfigurable Computing at the Extreme$416,000
· FY2011 · CSE