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Oskar Hallatschek
University Of California Berkeley
$2,613,150
Attributed
$3,069,061
Total exposure
2
Grants
2
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 $463.2K · FY2015–25$500K$375K$250K$125K$0
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Funding mix
By agency
NIH$3,069,061 · 2
By mechanism
R01$3,069,061 · 2
Top collaborators
- Raghuveer Parthasarathy2 shared
Most similar at University Of California Berkeley
Same institution · by research overlap
- Joseph Aurelio Bonanno$11,050,029
- Yun S. Song$7,258,672
- Doris Bachtrog$11,611,729
- Gregory M Barton$20,001,859
- Lee W Riley$13,436,523
Others in their field
Top investigators on “Simulation”
- Daniel Stanzione · Arizona State University$135,429,468
- Omar N Ghattas · Carnegie Mellon University$129,251,213
- Kelly P Gaither · Purdue University$123,039,625
- John E West · University Of Texas At Austin$110,966,494
- Gregory D Peterson · University Of Tennessee Knoxville$101,191,790
- Roger T Howe · University Of California-Berkeley$92,406,769
Research focus
SimulationGrowthMicrofluidicsSelf OrganizationSpatiotemporalTheoriesMicrobialEnvironmentPopulation GeneticsPropertyInvadedBiological ModelsJointsMathematical ModelBiophysicsMicrobeDrug ResistanceCellsCommunitiesPopulation DynamicsComputer SimulationEvolutionLiquid SubstanceHabitats
Grant awards (9)
Unraveling the Interplay Between Self-Organization and Antimicrobial Resistance Evolution Across Spatial Scales$448,666
R01 · FY2025 · GM · contact PI
Unraveling the Interplay Between Self-Organization and Antimicrobial Resistance Evolution Across Spatial Scales$463,157
R01 · FY2024 · GM · contact PI
Biomechanical Regulation of Microbial Self-Organization in Confined Environments$325,815
R01 · FY2023 · GM · contact PI
Biomechanical Regulation of Microbial Self-Organization in Confined Environments$325,815
R01 · FY2022 · GM · contact PI
Resolving the Mechano-Chemical Regulation of Microbial Populations in Microfluidic Devices$302,762
R01 · FY2019 · GM · contact PI
Resolving the Mechano-Chemical Regulation of Microbial Populations in Microfluidic Devices$299,333
R01 · FY2018 · GM · contact PI
Resolving the Mechano-Chemical Regulation of Microbial Populations in Microfluidic Devices$300,310
R01 · FY2017 · GM · contact PI
Resolving the Mechano-Chemical Regulation of Microbial Populations in Microfluidic Devices$301,198
R01 · FY2016 · GM · contact PI
Resolving the Mechano-Chemical Regulation of Microbial Populations in Microfluidic Devices$302,005
R01 · FY2015 · GM · contact PI