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Elongational-flow-induced scission of DNA nanotubes in laminar flow
Rizal F. Hariadi
, Bernard Yurke
Research output
:
Contribution to journal
›
Article
›
peer-review
12
Scopus citations
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Dive into the research topics of 'Elongational-flow-induced scission of DNA nanotubes in laminar flow'. Together they form a unique fingerprint.
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Mathematics
Nanotubes
98%
Laminar Flow
86%
Polymers
56%
Fragment
35%
Fluorescence Microscopy
31%
Expected Length
24%
First-principles
23%
Circumference
23%
Helix
22%
Hydrodynamics
18%
Fluid Flow
17%
Mechanics
17%
Continuum
16%
Chain
13%
Model
11%
Modeling
11%
Series
11%
Physics & Astronomy
cleavage
74%
laminar flow
74%
nanotubes
69%
deoxyribonucleic acid
66%
polymers
15%
fragments
15%
circumferences
10%
strands
9%
helices
9%
fluid flow
8%
hydrodynamics
6%
fluorescence
6%
continuums
6%
microscopy
6%
geometry
5%
molecules
4%
Medicine & Life Sciences
Nanotubes
100%
DNA
40%
Polymers
32%
DNA Breaks
15%
Single-Stranded DNA
14%
Hydrodynamics
14%
Fluorescence Microscopy
12%