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Items: 16

1.

Achieving high yield of graphene nanoplatelets in poloxamer-assisted ultrasonication of graphite in water.

Giglio CS, Osazuwa O, Kontopoulou M, Docoslis A.

J Colloid Interface Sci. 2019 Mar 15;539:107-117. doi: 10.1016/j.jcis.2018.12.033. Epub 2018 Dec 10.

PMID:
30576986
2.

Improving the Surface-Enhanced Raman Scattering Performance of Silver Nanodendritic Substrates with Sprayed-On Graphene-Based Coatings.

Mohammadi A, Nicholls DL, Docoslis A.

Sensors (Basel). 2018 Oct 11;18(10). pii: E3404. doi: 10.3390/s18103404.

3.

Direct Detection of Toxic Contaminants in Minimally Processed Food Products Using Dendritic Surface-Enhanced Raman Scattering Substrates.

Dies H, Siampani M, Escobedo C, Docoslis A.

Sensors (Basel). 2018 Aug 19;18(8). pii: E2726. doi: 10.3390/s18082726.

4.

In situ assembly of active surface-enhanced Raman scattering substrates via electric field-guided growth of dendritic nanoparticle structures.

Dies H, Raveendran J, Escobedo C, Docoslis A.

Nanoscale. 2017 Jun 14;9(23):7847-7857. doi: 10.1039/c7nr01743j.

PMID:
28555703
5.

Contact-Free Templating of 3-D Colloidal Structures Using Spatially Nonuniform AC Electric Fields.

Raveendran J, Wood JA, Docoslis A.

Langmuir. 2016 Sep 20;32(37):9619-32. doi: 10.1021/acs.langmuir.6b02188. Epub 2016 Sep 6.

PMID:
27541583
6.

Accelerated detection of viral particles by combining AC electric field effects and micro-Raman spectroscopy.

Tomkins MR, Liao DS, Docoslis A.

Sensors (Basel). 2015 Jan 8;15(1):1047-59. doi: 10.3390/s150101047.

7.

Correlation between the length reduction of carbon nanotubes and the electrical percolation threshold of melt compounded polyolefin composites.

Vasileiou AA, Kontopoulou M, Gui H, Docoslis A.

ACS Appl Mater Interfaces. 2015 Jan 28;7(3):1624-31. doi: 10.1021/am5071255. Epub 2015 Jan 15.

PMID:
25548884
8.

A noncovalent compatibilization approach to improve the filler dispersion and properties of polyethylene/graphene composites.

Vasileiou AA, Kontopoulou M, Docoslis A.

ACS Appl Mater Interfaces. 2014 Feb 12;6(3):1916-25. doi: 10.1021/am404979g. Epub 2014 Jan 22.

PMID:
24422418
9.

AC electrokinetic templating of colloidal particle assemblies: effect of electrohydrodynamic flows.

Wood JA, Docoslis A.

Langmuir. 2012 Mar 6;28(9):4586-97. doi: 10.1021/la2049019. Epub 2012 Feb 27.

PMID:
22324312
10.

Morphology of fibroblasts grown on substrates formed by dielectrophoretically aligned carbon nanotubes.

Yuen FL, Zak G, Waldman SD, Docoslis A.

Cytotechnology. 2008 Jan;56(1):9-17. doi: 10.1007/s10616-007-9113-0. Epub 2007 Dec 11.

11.

AC electric field-induced alignment and long-range assembly of multi-wall carbon nanotubes inside aqueous media.

Guo Z, Wood JA, Huszarik KL, Yan X, Docoslis A.

J Nanosci Nanotechnol. 2007 Dec;7(12):4322-32.

PMID:
18283810
12.

Characterization of the distribution, polymorphism, and stability of nimodipine in its solid dispersions in polyethylene glycol by micro-Raman spectroscopy and powder X-ray diffraction.

Docoslis A, Huszarik KL, Papageorgiou GZ, Bikiaris D, Stergiou D, Georgarakis E.

AAPS J. 2007 Dec 7;9(3):E361-70. doi: 10.1208/aapsj0903043.

13.
14.

Using nonuniform electric fields to accelerate the transport of viruses to surfaces from media of physiological ionic strength.

Docoslis A, Espinoza LA, Zhang B, Cheng LL, Israel BA, Alexandridis P, Abbott NL.

Langmuir. 2007 Mar 27;23(7):3840-8. Epub 2007 Feb 27.

PMID:
17323980
15.

Effect of physical state and particle size distribution on dissolution enhancement of nimodipine/PEG solid dispersions prepared by melt mixing and solvent evaporation.

Papageorgiou GZ, Bikiaris D, Karavas E, Politis S, Docoslis A, Park Y, Stergiou A, Georgarakis E.

AAPS J. 2006 Oct 6;8(4):E623-31.

16.

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