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Chenxiang Lin

Yale University

$8,574,232
Attributed
$12,306,642
Total exposure
8
Grants
4
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 $2.7M · FY201425
$5M$3.8M$2.5M$1.3M$0
'14
'15
'16
'17
'18
'19
'20
'21
'22
'23
'24
'25

Funding mix

By agency

NIH$12,306,642 · 8

By mechanism

R01$7,113,152 · 3
DP2$2,497,500 · 1
R21$1,383,907 · 3
R35$1,312,083 · 1

Top collaborators

Most similar at Yale University

Same institution · by research overlap

Others in their field

Top investigators on “Cells

Research focus

CellsProteinsMolecularBiochemicalNanotechnologyStructureIn VitroBaseExperimental StudyGeometryDesignComplexFoundationsSuccessSurfaceDimensionsSignal TransductionInsightVirus DiseasesPhysiologicalMediatingPatternDensityCryoelectron Microscopy

Grant awards (28)

A multiscale approach for elucidating nuclear entry mechanisms of HIV-1 capsid$591,144
R01 · FY2025 · AI
DNA nanotechnology enabled high-precision membrane engineering$460,625
R35 · FY2025 · GM · contact PI
A multiscale approach for elucidating nuclear entry mechanisms of HIV-1 capsid$611,904
R01 · FY2024 · AI
Fluid shear stress mechanotransduction at endothelial cell-cell junctions$522,742
R01 · FY2024 · HL
DNA nanotechnology enabled high-precision membrane engineering$460,625
R35 · FY2024 · GM · contact PI
A multiscale approach for elucidating nuclear entry mechanisms of HIV-1 capsid$134,129
R01 · FY2024 · AI
Fluid shear stress mechanotransduction at endothelial cell-cell junctions$84,568
R01 · FY2024 · HL
A multiscale approach for elucidating nuclear entry mechanisms of HIV-1 capsid$631,405
R01 · FY2023 · AI
Fluid shear stress mechanotransduction at endothelial cell-cell junctions$533,410
R01 · FY2023 · HL
DNA nanotechnology enabled high-precision membrane engineering$390,833
R35 · FY2023 · GM · contact PI
High-Throughput, Multiplexing-Ready Intracellular Pressure Probes$196,649
R21 · FY2023 · GM
A multiscale approach for elucidating nuclear entry mechanisms of HIV-1 capsid$134,129
R01 · FY2023 · AI
Fluid shear stress mechanotransduction at endothelial cell-cell junctions$84,568
R01 · FY2023 · HL
A multiscale approach for elucidating nuclear entry mechanisms of HIV-1 capsid$57,353
R01 · FY2023 · AI
A multiscale approach for elucidating nuclear entry mechanisms of HIV-1 capsid$650,985
R01 · FY2022 · AI
Fluid shear stress mechanotransduction at endothelial cell-cell junctions$533,410
R01 · FY2022 · HL
A Nanomechanical Toolkit to Guide Membrane Structure and Dynamics$335,000
R01 · FY2022 · GM · contact PI
High-Throughput, Multiplexing-Ready Intracellular Pressure Probes$268,758
R21 · FY2022 · GM
Self-assembled DNA elastic networks for measuring membrane tension in live cells$209,375
R21 · FY2022 · GM
A multiscale approach for elucidating nuclear entry mechanisms of HIV-1 capsid$669,995
R01 · FY2021 · AI
Fluid shear stress mechanotransduction at endothelial cell-cell junctions$533,410
R01 · FY2021 · HL
A Nanomechanical Toolkit to Guide Membrane Structure and Dynamics$335,000
R01 · FY2021 · GM · contact PI
Self-assembled DNA elastic networks for measuring membrane tension in live cells$251,250
R21 · FY2021 · GM
A Nanomechanical Toolkit to Guide Membrane Structure and Dynamics$335,000
R01 · FY2020 · GM · contact PI
A Nanomechanical Toolkit to Guide Membrane Structure and Dynamics$335,000
R01 · FY2019 · GM · contact PI
Generating nuclear pore complex mimics with DNA origami$208,125
R21 · FY2015 · GM · contact PI
Cell-free membrane remodeling guided by DNA nano-templates$2,497,500
DP2 · FY2014 · GM · contact PI
Generating nuclear pore complex mimics with DNA origami$249,750
R21 · FY2014 · GM · contact PI