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Items: 12

1.

Carbon Nanomaterials as Antibacterial Colloids.

Maas M.

Materials (Basel). 2016 Jul 25;9(8). pii: E617. doi: 10.3390/ma9080617. Review.

2.

Toxicity of ZnO and TiO2 to Escherichia coli cells.

Leung YH, Xu X, Ma AP, Liu F, Ng AM, Shen Z, Gethings LA, Guo MY, Djurišić AB, Lee PK, Lee HK, Chan WK, Leung FC.

Sci Rep. 2016 Oct 12;6:35243. doi: 10.1038/srep35243.

3.

Rapidly Probing Antibacterial Activity of Graphene Oxide by Mass Spectrometry-based Metabolite Fingerprinting.

Zhang N, Hou J, Chen S, Xiong C, Liu H, Jin Y, Wang J, He Q, Zhao R, Nie Z.

Sci Rep. 2016 Jun 16;6:28045. doi: 10.1038/srep28045.

4.

Antibacterial activity of large-area monolayer graphene film manipulated by charge transfer.

Li J, Wang G, Zhu H, Zhang M, Zheng X, Di Z, Liu X, Wang X.

Sci Rep. 2014 Mar 12;4:4359. doi: 10.1038/srep04359.

5.

Uraemic toxins generated in the presence of fullerene C60, carbon-encapsulated magnetic nanoparticles, and multiwalled carbon nanotubes.

Popławska M, Krawczyk H.

Biomed Res Int. 2013;2013:168512. doi: 10.1155/2013/168512. Epub 2013 Sep 2.

6.

Impact of TiO2 nanoparticles on growth, biofilm formation, and flavin secretion in Shewanella oneidensis.

Maurer-Jones MA, Gunsolus IL, Meyer BM, Christenson CJ, Haynes CL.

Anal Chem. 2013 Jun 18;85(12):5810-8. doi: 10.1021/ac400486u. Epub 2013 Jun 7.

7.

Oxidative stress-mediated antibacterial activity of graphene oxide and reduced graphene oxide in Pseudomonas aeruginosa.

Gurunathan S, Han JW, Dayem AA, Eppakayala V, Kim JH.

Int J Nanomedicine. 2012;7:5901-14. doi: 10.2147/IJN.S37397. Epub 2012 Nov 30.

8.

Practical considerations for conducting ecotoxicity test methods with manufactured nanomaterials: what have we learnt so far?

Handy RD, van den Brink N, Chappell M, Mühling M, Behra R, Dušinská M, Simpson P, Ahtiainen J, Jha AN, Seiter J, Bednar A, Kennedy A, Fernandes TF, Riediker M.

Ecotoxicology. 2012 May;21(4):933-72. doi: 10.1007/s10646-012-0862-y. Epub 2012 Mar 16. Review.

9.

CdTe and CdSe quantum dots cytotoxicity: a comparative study on microorganisms.

Gomes SA, Vieira CS, Almeida DB, Santos-Mallet JR, Menna-Barreto RF, Cesar CL, Feder D.

Sensors (Basel). 2011;11(12):11664-78. doi: 10.3390/s111211664. Epub 2011 Dec 15. Review.

10.

Effects of engineered cerium oxide nanoparticles on bacterial growth and viability.

Pelletier DA, Suresh AK, Holton GA, McKeown CK, Wang W, Gu B, Mortensen NP, Allison DP, Joy DC, Allison MR, Brown SD, Phelps TJ, Doktycz MJ.

Appl Environ Microbiol. 2010 Dec;76(24):7981-9. doi: 10.1128/AEM.00650-10. Epub 2010 Oct 15.

11.

Evidence for singlet-oxygen generation and biocidal activity in photoresponsive metallic nitride fullerene-polymer adhesive films.

McCluskey DM, Smith TN, Madasu PK, Coumbe CE, Mackey MA, Fulmer PA, Wynne JH, Stevenson S, Phillips JP.

ACS Appl Mater Interfaces. 2009 Apr;1(4):882-7. doi: 10.1021/am900008v.

12.

Quantitative analysis of fullerene nanomaterials in environmental systems: a critical review.

Isaacson CW, Kleber M, Field JA.

Environ Sci Technol. 2009 Sep 1;43(17):6463-74. Review.

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