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The cytotoxity of highly porous medical carbon adsorbents
Lara-Marie Barnes
, Gary Phillips
, J.G. Davies
,
Andrew Lloyd
, Liz Cheek
, S.R. Tennison
, A.P. Rawlinson
, O.P. Kozynchenko
, Sergey Mikhalovsky
University of Brighton
Research output
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peer-review
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Keyphrases
Carbon Adsorbent
100%
Cytotoxity
100%
Highly Porous
100%
Extracorporeal Therapy
66%
Carbon Materials
66%
V79 Cells
66%
Large Surface Area
66%
Colony Formation
66%
Commercially Available
33%
Cellulose
33%
Biomaterials
33%
Protein Adsorption
33%
Nanoparticles
33%
Adsorbent
33%
Cytotoxic Activity
33%
Assessment Method
33%
Porous Structure
33%
Carbon Nanotubes
33%
Coated Carbon
33%
Extraction Methods
33%
Cytotoxicity Test
33%
Cytotoxic Effect
33%
Material Extraction
33%
Medical Applications
33%
Activated Carbon Adsorbent
33%
Colony Formation Assay
33%
In Vitro Cytotoxicity
33%
Cytotoxic Response
33%
Ion Adsorption
33%
Nutrient Loss
33%
Essential nutrients
33%
Direct Hemoperfusion
33%
Medicine and Dentistry
Adsorbent
100%
Cytotoxicity
75%
Colony Formation
75%
Extracorporeal Therapy
50%
V79 Cell Line
50%
In Vitro
25%
Biocompatible Material
25%
Hemoperfusion
25%
Activated Charcoal
25%
Nanoparticle
25%
Carbon Nanotube
25%
Engineering
Extracorporeal Therapy
100%
Porosity
100%
Nanoparticle
50%
Carbon Nanotube
50%
Medical Applications
50%
Activated Carbon Adsorbent
50%
Porous Structure
50%
Isolation Method
50%
Chemical Engineering
Carbon Nanotube
100%
Nanoparticle
100%
Activated Carbon Adsorbent
100%
Material Science
Adsorbent
100%
Biomaterial
25%
Nanoparticle
25%
Carbon Nanotube
25%