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Role of the Biomolecule Corona in Nanoparticle Fate and Behavior
Iseult Lynch
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Corresponding author for this work
Geography, Earth and Environmental Sciences
Earth and Environmental Sciences
Research output
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Chapter in Book/Report/Conference proceeding
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Chapter
1
Citation (Scopus)
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Physics & Astronomy
air pollution
100%
coronas
68%
mortality
49%
nanoparticles
47%
regulators
44%
toxicity
42%
catalysis
40%
nanotechnology
39%
medicine
37%
health
36%
drugs
35%
particulates
35%
reactivity
34%
delivery
33%
surface energy
33%
Engineering & Materials Science
Biomolecules
98%
Air pollution
79%
Nanoparticles
68%
Oxidative stress
60%
Catalysis
46%
Nanostructured materials
43%
Interfacial energy
43%
Toxicity
41%
Nanotechnology
40%
Medicine
35%
Information technology
30%
Health
25%
Medicine & Life Sciences
Air Pollution
81%
Nanoparticles
62%
Catalysis
42%
Nanotechnology
41%
Information Technology
41%
Nanostructures
41%
Epidemiologic Studies
29%
Oxidative Stress
25%
Medicine
25%
Research Personnel
24%
Morbidity
20%
Mortality
17%
Health
17%
Child
15%
Pharmaceutical Preparations
14%
Chemistry
Air Pollution
91%
Nanoparticle
34%
Oxidative Stress
34%
Interfacial Energy
34%
Catalysis
22%
Nanomaterial
21%
Application
21%
Surface
11%