← Leaderboards
Minjun Kim
Drexel University
$5,819,246
Attributed
$6,096,891
Total exposure
23
Grants
23
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 $1.9M · FY2008–25$2M$1.5M$1M$500K$0
'08
'09
'10
'11
'12
'13
'14
'15
'16
'17
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'19
'20
'21
'22
'23
'24
'25
Funding mix
By agency
NSF$6,096,891 · 23
By mechanism
—$6,096,891 · 23
Top collaborators
- Guoliang Yang1 shared
- Jack G Zhou1 shared
- Ming Xiao1 shared
- Sally D Solomon1 shared
Grant awards (23)
Collaborative Research: Deformation-Enhanced Dynamics and Control of Microscale Modular Soft Robots$375,553
· FY2025 · CSE · contact PI
Collaborative Research: Exploring Flagellar Mechanics to Advance Bacterial Locomotion and Nanorobotic Propulsion$342,325
· FY2025 · ENG · contact PI
Collaborative Research: A High-Throughput Single-Molecule Nanosensor to Characterize Loading Efficiency of Gene Delivery Preparations$308,000
· FY2024 · ENG · contact PI
Collaborative Research: Magnetically-Controlled Modules with Reconfigurable Self-Assembly and Disassembly$343,225
· FY2022 · CSE · contact PI
NSF-BSF: Modeling and Control of Collective Dynamics for Externally Driven Planar Microswimmers$305,948
· FY2021 · ENG · contact PI
Collaborative Research: Ultrasensitive Nucleic Acid Sensing Tools Based on Cas Assays and Solid-State Nanopores$287,403
· FY2021 · ENG · contact PI
Collaborative Research: A Stacked Plasmonic Nanopore for Tether-Free Stretching and Label-Free Sensing of hSTf Dynamics and Complex Formation at Ultra-Low Concentrations$303,347
· FY2020 · ENG · contact PI
Collaborative Research: Controlled Investigation of Micro- and Nanoscale Contact Interactions Between Microbes and Biomaterials Using Artificial Bacteria$284,936
· FY2018 · ENG · contact PI
Collaborative Research: Quantitative Analysis of Liposome Deformation at Nanoscale Using Resistive Pulse Sensing in Solid State Nanopores$338,517
· FY2016 · ENG · contact PI
RI: Small: Collaborative Research: Micro-Assembly Exploiting SofT RObotics (MAESTRO)$322,692
· FY2016 · CSE · contact PI
3D Motion and Swarm Control of Magnetically Propelled Microrobots for in vivo Particulate Drug Delivery$321,431
· FY2016 · ENG · contact PI
Collaborative Research: Quantitative Analysis of Liposome Deformation at Nanoscale Using Resistive Pulse Sensing in Solid State Nanopores$314,517
· FY2016 · ENG · contact PI
3D Motion and Swarm Control of Magnetically Propelled Microrobots for in vivo Particulate Drug Delivery$289,431
· FY2016 · ENG · contact PI
Integrated Nanochannel and Nanopore Architecture for Studying Translocation Dynamics of DNA$146,928
· FY2016 · ENG · contact PI
RI: Small: Collaborative Research: Micro-Assembly Exploiting SofT RObotics (MAESTRO)$99,564
· FY2016 · CSE · contact PI
Collaborative Research: Bacterial Flagellar Forests: Designing a Biomaterial for Bio-Enabled Sensing and Actuation$57,047
· FY2016 · MPS · contact PI
Integrated Nanochannel and Nanopore Architecture for Studying Translocation Dynamics of DNA$255,290
· FY2014 · ENG · contact PI
Collaborative Research: Bacterial Flagellar Forests: Designing a Biomaterial for Bio-Enabled Sensing and Actuation$263,750
· FY2013 · MPS · contact PI
Collaborative Research: Motion Control of Bacteria-Powered Microrobots$213,387
· FY2010 · ENG · contact PI
Collaborative Teaching and Interdisciplinary Discovery-Based Experiments for Understanding Nanoscale Metrology and Manufacturing$200,000
· FY2010 · EDU · contact PI
U.S.-Korea Planning Visit: Collaborations in Insect Flight Research$19,800
· FY2010 · O/D · contact PI
CAREER: The Integration of Biomolecular Motors for Bacterial Actuation, Sensing, and Transport (BAST) at Micro/Nanoscale$444,000
· FY2008 · ENG · contact PI
Collaborative Research: Biologically Inspired Robotic Microswimmers$259,800
· FY2008 · ENG · contact PI