about
Potential toxicity of engineered nanoparticles in mammalian germ cells and developing embryos: treatment strategies and anticipated applications of nanoparticles in gene deliveryNanoparticles: Alternatives Against Drug-Resistant Pathogenic MicrobesCytotoxicity of Nanoparticles Contained in Food on Intestinal Cells and the Gut MicrobiotaNanoparticle-Based Antimicrobials: Surface Functionality is Critical2D dynamical arrest transition in a mixed nanoparticle-phospholipid layer studied in real and momentum spaces.Recent Nanotechnology Approaches for Prevention and Treatment of Biofilm-Associated Infections on Medical DevicesAlternative antimicrobial approach: nano-antimicrobial materialsUltraviolet light and laser irradiation enhances the antibacterial activity of glucosamine-functionalized gold nanoparticlesAntimicrobial activity of carbon-based nanoparticlesMeasurement of Transport Properties of Aerosolized NanomaterialsEffects of various heavy metal nanoparticles on Enterococcus hirae and Escherichia coli growth and proton-coupled membrane transportGreen synthesis of silver nanoparticles in aloe vera plant extract prepared by a hydrothermal method and their synergistic antibacterial activityAntimicrobial potential of two traditional herbometallic drugs against certain pathogenic microbial speciesBorreliacidal activity of Borrelia metal transporter A (BmtA) binding small molecules by manganese transport inhibition.Molecular recognition by gold, silver and copper nanoparticles.Uptake and metabolism of iron oxide nanoparticles in brain cells.Novel composite plastics containing silver(I) acylpyrazolonato additives display potent antimicrobial activity by contact.Preparation and antibacterial properties of titanium-doped ZnO from different zinc salts.Vancomycin-modified Fe3O4@SiO2@Ag microflowers as effective antimicrobial agents.Gold-functionalized magnetic nanoparticles restrict growth of Pseudomonas aeruginosa.pH-Dependent Antimicrobial Properties of Copper Oxide Nanoparticles in Staphylococcus aureus.Efficient Antibacterial Membrane based on Two-Dimensional Ti3C2Tx (MXene) Nanosheets.Copper status of exposed microorganisms influences susceptibility to metallic nanoparticles.Cefazolin-loaded mesoporous silicon microparticles show sustained bactericidal effect against Staphylococcus aureus.Antibacterial cellulose paper made with silver-coated gold nanoparticles.Ti-GO-Ag nanocomposite: the effect of content level on the antimicrobial activity and cytotoxicity.Antibacterial activity and cytotoxicity of multi-walled carbon nanotubes decorated with silver nanoparticles.A comparison of conventional methods for the quantification of bacterial cells after exposure to metal oxide nanoparticles.Zinc-triggered hydrogelation of self-assembled small molecules to inhibit bacterial growth.Influence of culture media on biofilm formation by Candida species and response of sessile cells to antifungals and oxidative stress.Liposome-encapsulated ISMN: a novel nitric oxide-based therapeutic agent against Staphylococcus aureus biofilms.Ectoenzyme switches the surface of magnetic nanoparticles for selective binding of cancer cells.Impacts of engineered nanomaterials on microbial community structure and function in natural and engineered ecosystems.Combating drug resistant pathogenic bacteria isolated from clinical infections, with silver oxide nanoparticles.Distribution and Inhibition of Liposomes on Staphylococcus aureus and Pseudomonas aeruginosa Biofilm.Microbial assemblages for environmental quality assessment: Knowledge, gaps and usefulness in the European Marine Strategy Framework Directive.Comparison of antibacterial activities of cadmium oxide nanoparticles against Pseudomonas Aeruginosa and Staphylococcus Aureus bacteria.Considerable Variation of Antibacterial Activity of Cu Nanoparticles Suspensions Depending on the Storage Time, Dispersive Medium, and Particle Sizes.Potent antimicrobial and antibiofilm activities of bacteriogenically synthesized gold-silver nanoparticles against pathogenic bacteria and their physiochemical characterizations.Laser-Generated Shockwaves as a Treatment to Reduce Bacterial Load and Disrupt Biofilm.
P2860
Q26744195-A78D9FD6-8E7A-4C47-A77C-A47FC9B61762Q26746108-4160FE86-0F89-483F-B0CA-F163B29022DBQ26750622-B0845E67-AE18-4557-A30D-4650B4647E76Q26752437-707BE0DE-76C9-4B94-953B-4C604AEBF9E2Q27303957-5F9A1F30-A0BF-4343-B6A5-167D80AFA8A7Q28074875-00A112C9-DEE3-49C4-82B8-A1115CE0EDABQ28081490-61E47A30-36E5-4702-B8AA-4F462FB54D77Q28387173-224F597C-835F-4BCB-A747-4E940221B673Q28389452-107E969D-6524-48AA-A90F-26E2681DC69AQ28396465-B8FD4A17-5150-4F94-935A-B97B4BBFEC64Q28610972-935D4849-0FD0-4257-9D3C-7F36E216751EQ28821293-FF7C594D-08D3-4A60-89D2-5577FC85CC52Q28830112-376C1120-2611-4337-BFD2-8A428D3BCA49Q30372052-DEF47D0A-653B-46F3-A8AB-4685AE94EF9CQ30450339-1AFEC3D2-A68D-4BAE-802B-81EEA87350D1Q30835947-A041433E-43E9-4859-935D-38233BD4CB47Q30865846-77E2AE91-587B-4DA8-A308-CA72FCD2711BQ33589285-16B344F8-ACB0-4899-8567-0D13EC60D381Q33589402-46D120C4-0465-4F02-AD93-881B30095B91Q33610519-21244D82-FAAA-4390-9BC1-022335752241Q33624615-96F3AF64-9F27-46BE-91BE-481C8C0084E7Q33686429-EAF4361C-7148-4C65-96F5-0248BEAF11B4Q33712736-6903A3D6-492E-4424-BE3E-9434F8D799A6Q33716086-0FEB8EC2-9F9C-4DAF-B4B2-371E1678C9B9Q33784388-B5335C79-9FCA-44AC-87DE-4A6EF7AB99C3Q33807157-AAD43F21-B3FD-4C21-9E31-687B54AB7D60Q34354118-CDB36F1B-BCDB-4D1F-BB9E-68ED465F2696Q34537938-07DD9AA2-5980-48E4-B53D-E08BD28A170FQ34925381-9C8DF8E1-9A81-4264-B74A-E2EC3980AC07Q35091118-B69D6E30-FB44-4D27-A1B5-06CE4A4CB56CQ35128144-9FB0F258-5859-4E0A-AFA4-A8B60E303E3FQ35205375-3982C787-1425-4702-ACF5-1EDFE7E6D55CQ35222456-4C7768C6-1758-475F-8657-8DD03EB00F56Q35640937-7BE20B73-607C-473E-9AB0-A99DE3740500Q35678511-DA51E5E4-83C1-43CE-AA34-F65EEC0B47ABQ35846554-9366333B-1485-4FA4-8763-4C8A5D915B0DQ35884494-598BFF59-BDDD-486A-A9FF-4CFC506702BCQ35960292-4B2381D7-9798-4544-8169-294ABD8FAFF6Q36000138-606ADEB4-AA24-44EB-853B-D8AF6205D702Q36057086-A9D35CDC-DF14-476C-8427-A3686ECC64D2
P2860
description
article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
@sq
artículo científico
@es
name
Antibacterial properties of nanoparticles.
@en
type
label
Antibacterial properties of nanoparticles.
@en
prefLabel
Antibacterial properties of nanoparticles.
@en
P2093
P1476
Antibacterial properties of nanoparticles.
@en
P2093
Ali Akbar Ashkarran
Idoia Ruiz de Larramendi
Katharina M Fromm
Mohammad J Hajipour
Teofilo Rojo
Vahid Serpooshan
Wolfgang J Parak
P304
P356
10.1016/J.TIBTECH.2012.06.004
P577
2012-08-09T00:00:00Z