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Editorial: Advances in cheminformatics: drug discovery, computational toxicology and nanomaterials (part I).

Combinatorial chemistry & high throughput screening

Melagraki G, Afantitis A.
PMID: 25929702
Comb Chem High Throughput Screen. 2015;18(3):236-7. doi: 10.2174/138620731803150423131038.

No abstract available.

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Melagraki G, Afantitis A. Editorial: Advances in cheminformatics: drug discovery, computational toxicology and nanomaterials (part I). Comb Chem High Throughput Screen. 2015;18(3):236-7doi: 10.2174/138620731803150423131038.
Melagraki, G., & Afantitis, A. (2015). Editorial: Advances in cheminformatics: drug discovery, computational toxicology and nanomaterials (part I). Combinatorial chemistry & high throughput screening, 18(3), 236-7. https://doi.org/10.2174/138620731803150423131038
Melagraki, Georgia, and Afantitis, Antreas. "Editorial: Advances in cheminformatics: drug discovery, computational toxicology and nanomaterials (part I)." Combinatorial chemistry & high throughput screening vol. 18,3 (2015): 236-7. doi: https://doi.org/10.2174/138620731803150423131038
Melagraki G, Afantitis A. Editorial: Advances in cheminformatics: drug discovery, computational toxicology and nanomaterials (part I). Comb Chem High Throughput Screen. 2015;18(3):236-7. doi: 10.2174/138620731803150423131038. PMID: 25929702.
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Self-assembled organic nanostructures in medicinal chemistry: advances and applications.

Current topics in medicinal chemistry

Rodrigues J, Rathi B.
PMID: 25930062
Curr Top Med Chem. 2015;15(13):1161. doi: 10.2174/1568026615666150330105539.

No abstract available.

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Rodrigues J, Rathi B. Self-assembled organic nanostructures in medicinal chemistry: advances and applications. Curr Top Med Chem. 2015;15(13):1161doi: 10.2174/1568026615666150330105539.
Rodrigues, J., & Rathi, B. (2015). Self-assembled organic nanostructures in medicinal chemistry: advances and applications. Current topics in medicinal chemistry, 15(13), 1161. https://doi.org/10.2174/1568026615666150330105539
Rodrigues, Joao, and Rathi, Brijesh. "Self-assembled organic nanostructures in medicinal chemistry: advances and applications." Current topics in medicinal chemistry vol. 15,13 (2015): 1161. doi: https://doi.org/10.2174/1568026615666150330105539
Rodrigues J, Rathi B. Self-assembled organic nanostructures in medicinal chemistry: advances and applications. Curr Top Med Chem. 2015;15(13):1161. doi: 10.2174/1568026615666150330105539. PMID: 25930062.
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Novel 3D/VR interactive environment for MD simulations, visualization and analysis.

Journal of visualized experiments : JoVE

Doblack BN, Allis T, Dávila LP.
PMID: 25549300
J Vis Exp. 2014 Dec 18;(94). doi: 10.3791/51384.

The increasing development of computing (hardware and software) in the last decades has impacted scientific research in many fields including materials science, biology, chemistry and physics among many others. A new computational system for the accurate and fast simulation...

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Doblack BN, Allis T, Dávila LP. Novel 3D/VR interactive environment for MD simulations, visualization and analysis. J Vis Exp. 2014;(94)doi: 10.3791/51384.
Doblack, B. N., Allis, T., & Dávila, L. P. (2014). Novel 3D/VR interactive environment for MD simulations, visualization and analysis. Journal of visualized experiments : JoVE, (94), . https://doi.org/10.3791/51384
Doblack, Benjamin N, et al. "Novel 3D/VR interactive environment for MD simulations, visualization and analysis." Journal of visualized experiments : JoVE vol. ,94 (2014). doi: https://doi.org/10.3791/51384
Doblack BN, Allis T, Dávila LP. Novel 3D/VR interactive environment for MD simulations, visualization and analysis. J Vis Exp. 2014 Dec 18;(94). doi: 10.3791/51384. PMID: 25549300; PMCID: PMC4396941.
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Heterogeneous electron transfer at nanoscopic electrodes: importance of electronic structures and electric double layers.

Chemical Society reviews

Chen S, Liu Y, Chen J.
PMID: 24871071
Chem Soc Rev. 2014 Aug 07;43(15):5372-86. doi: 10.1039/c4cs00087k.

Heterogeneous electron-transfer (ET) processes at solid electrodes play key roles in molecular electronics and electrochemical energy conversion and sensing. Electrode nanosization and/or nanostructurization are among the major current strategies for performance promotion in these fields. Besides, nano-sized/structured electrodes offer...

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Chen S, Liu Y, Chen J. Heterogeneous electron transfer at nanoscopic electrodes: importance of electronic structures and electric double layers. Chem Soc Rev. 2014;43(15):5372-86doi: 10.1039/c4cs00087k.
Chen, S., Liu, Y., & Chen, J. (2014). Heterogeneous electron transfer at nanoscopic electrodes: importance of electronic structures and electric double layers. Chemical Society reviews, 43(15), 5372-86. https://doi.org/10.1039/c4cs00087k
Chen, Shengli, et al. "Heterogeneous electron transfer at nanoscopic electrodes: importance of electronic structures and electric double layers." Chemical Society reviews vol. 43,15 (2014): 5372-86. doi: https://doi.org/10.1039/c4cs00087k
Chen S, Liu Y, Chen J. Heterogeneous electron transfer at nanoscopic electrodes: importance of electronic structures and electric double layers. Chem Soc Rev. 2014 Aug 07;43(15):5372-86. doi: 10.1039/c4cs00087k. PMID: 24871071.
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Microfluidic platforms for advanced risk assessments of nanomaterials.

Nanotoxicology

Mahto SK, Charwat V, Ertl P, Rothen-Rutishauser B, Rhee SW, Sznitman J.
PMID: 25051329
Nanotoxicology. 2015 May;9(3):381-95. doi: 10.3109/17435390.2014.940402. Epub 2014 Jul 22.

In the past few years, promising efforts to utilize microfabrication-based technologies have laid the foundation for developing advanced, and importantly more physiologically-realistic, microfluidic methods for risk assessment of engineered nanomaterials (ENMs). In the present review, we discuss the wave...

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Mahto SK, Charwat V, Ertl P, et al. Microfluidic platforms for advanced risk assessments of nanomaterials. Nanotoxicology. 2014;9(3):381-95doi: 10.3109/17435390.2014.940402.
Mahto, S. K., Charwat, V., Ertl, P., Rothen-Rutishauser, B., Rhee, S. W., & Sznitman, J. (2015). Microfluidic platforms for advanced risk assessments of nanomaterials. Nanotoxicology, 9(3), 381-95. https://doi.org/10.3109/17435390.2014.940402
Mahto, Sanjeev Kumar, et al. "Microfluidic platforms for advanced risk assessments of nanomaterials." Nanotoxicology vol. 9,3 (2015): 381-95. doi: https://doi.org/10.3109/17435390.2014.940402
Mahto SK, Charwat V, Ertl P, Rothen-Rutishauser B, Rhee SW, Sznitman J. Microfluidic platforms for advanced risk assessments of nanomaterials. Nanotoxicology. 2015 May;9(3):381-95. doi: 10.3109/17435390.2014.940402. Epub 2014 Jul 22. PMID: 25051329.
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Ultra-high-aspect-orthogonal and tunable three dimensional polymeric nanochannel stack array for BioMEMS applications.

Nanoscale

Heo J, Kwon HJ, Jeon H, Kim B, Kim SJ, Lim G.
PMID: 24993028
Nanoscale. 2014 Aug 21;6(16):9681-8. doi: 10.1039/c4nr00350k. Epub 2014 Jul 04.

Nanofabrication technologies have been a strong advocator for new scientific fundamentals that have never been described by traditional theory, and have played a seed role in ground-breaking nano-engineering applications. In this study, we fabricated ultra-high-aspect (∼10(6) with O(100) nm...

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Heo J, Kwon HJ, Jeon H, et al. Ultra-high-aspect-orthogonal and tunable three dimensional polymeric nanochannel stack array for BioMEMS applications. Nanoscale. 2014;6(16):9681-8doi: 10.1039/c4nr00350k.
Heo, J., Kwon, H. J., Jeon, H., Kim, B., Kim, S. J., & Lim, G. (2014). Ultra-high-aspect-orthogonal and tunable three dimensional polymeric nanochannel stack array for BioMEMS applications. Nanoscale, 6(16), 9681-8. https://doi.org/10.1039/c4nr00350k
Heo, Joonseong, et al. "Ultra-high-aspect-orthogonal and tunable three dimensional polymeric nanochannel stack array for BioMEMS applications." Nanoscale vol. 6,16 (2014): 9681-8. doi: https://doi.org/10.1039/c4nr00350k
Heo J, Kwon HJ, Jeon H, Kim B, Kim SJ, Lim G. Ultra-high-aspect-orthogonal and tunable three dimensional polymeric nanochannel stack array for BioMEMS applications. Nanoscale. 2014 Aug 21;6(16):9681-8. doi: 10.1039/c4nr00350k. Epub 2014 Jul 04. PMID: 24993028.
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Preface.

Current drug delivery

Toth I.
PMID: 27447004
Curr Drug Deliv. 2016;13(1):3. doi: 10.2174/156720181301160314153150.

No abstract available.

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Toth I. Preface. Curr Drug Deliv. 2016;13(1):3doi: 10.2174/156720181301160314153150.
Toth, I. (2016). Preface. Current drug delivery, 13(1), 3. https://doi.org/10.2174/156720181301160314153150
Toth, Istvan. "Preface." Current drug delivery vol. 13,1 (2016): 3. doi: https://doi.org/10.2174/156720181301160314153150
Toth I. Preface. Curr Drug Deliv. 2016;13(1):3. doi: 10.2174/156720181301160314153150. PMID: 27447004.
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Nanotechnology and public health.

[Nihon koshu eisei zasshi] Japanese journal of public health

Matsudai M, Hunt G.
PMID: 16408476
Nihon Koshu Eisei Zasshi. 2005 Nov;52(11):923-7.

Nanotechnology is developing very quickly, and Japan is in many respects leading the world in this convergence of nanoscale engineering techniques. The public health community in Japan must start to think about the public health impacts of nanotechnology over...

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Matsudai M, Hunt G. Nanotechnology and public health. Nihon Koshu Eisei Zasshi. 2005;52(11):923-7
Matsudai, M., & Hunt, G. (2005). Nanotechnology and public health. [Nihon koshu eisei zasshi] Japanese journal of public health, 52(11), 923-7.
Matsudai, Masami, and Hunt, Geoffrey. "Nanotechnology and public health." [Nihon koshu eisei zasshi] Japanese journal of public health vol. 52,11 (2005): 923-7.
Matsudai M, Hunt G. Nanotechnology and public health. Nihon Koshu Eisei Zasshi. 2005 Nov;52(11):923-7. PMID: 16408476.
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Nanomedicine for drug delivery and imaging: a promising avenue for cancer therapy and diagnosis using targeted functional nanoparticles.

International journal of cancer

Liu Y, Miyoshi H, Nakamura M.
PMID: 17390371
Int J Cancer. 2007 Jun 15;120(12):2527-37. doi: 10.1002/ijc.22709.

The diagnosis and treatment of cancer or tumor at the cellular level will be greatly improved with the development of techniques that enable the delivery of analyte probes and therapeutic agents into cells and cellular compartments. Organic and inorganic...

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Liu Y, Miyoshi H, Nakamura M. Nanomedicine for drug delivery and imaging: a promising avenue for cancer therapy and diagnosis using targeted functional nanoparticles. Int J Cancer. 2007;120(12):2527-37doi: 10.1002/ijc.22709.
Liu, Y., Miyoshi, H., & Nakamura, M. (2007). Nanomedicine for drug delivery and imaging: a promising avenue for cancer therapy and diagnosis using targeted functional nanoparticles. International journal of cancer, 120(12), 2527-37. https://doi.org/10.1002/ijc.22709
Liu, Yiyao, et al. "Nanomedicine for drug delivery and imaging: a promising avenue for cancer therapy and diagnosis using targeted functional nanoparticles." International journal of cancer vol. 120,12 (2007): 2527-37. doi: https://doi.org/10.1002/ijc.22709
Liu Y, Miyoshi H, Nakamura M. Nanomedicine for drug delivery and imaging: a promising avenue for cancer therapy and diagnosis using targeted functional nanoparticles. Int J Cancer. 2007 Jun 15;120(12):2527-37. doi: 10.1002/ijc.22709. PMID: 17390371.
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Collective buckling of a two-dimensional array of nanoscale columns.

The journal of physical chemistry. B

Chen Z, Yang J, Tan L.
PMID: 18973355
J Phys Chem B. 2008 Nov 27;112(47):14766-71. doi: 10.1021/jp8046399.

Periodic soft nanostructures are building blocks for small devices. However, mechanical failure in the form of structure buckling or distortion from their original shape is often reported when the dimension of these soft structures were reduced to below submicron...

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Chen Z, Yang J, Tan L. Collective buckling of a two-dimensional array of nanoscale columns. J Phys Chem B. 2008;112(47):14766-71doi: 10.1021/jp8046399.
Chen, Z., Yang, J., & Tan, L. (2008). Collective buckling of a two-dimensional array of nanoscale columns. The journal of physical chemistry. B, 112(47), 14766-71. https://doi.org/10.1021/jp8046399
Chen, Ziguang, et al. "Collective buckling of a two-dimensional array of nanoscale columns." The journal of physical chemistry. B vol. 112,47 (2008): 14766-71. doi: https://doi.org/10.1021/jp8046399
Chen Z, Yang J, Tan L. Collective buckling of a two-dimensional array of nanoscale columns. J Phys Chem B. 2008 Nov 27;112(47):14766-71. doi: 10.1021/jp8046399. PMID: 18973355.
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The same old story.

Nature nanotechnology

[No authors listed]
PMID: 19057580
Nat Nanotechnol. 2008 Dec;3(12):697. doi: 10.1038/nnano.2008.348.

No abstract available.

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The same old story. Nat Nanotechnol. 2008;3(12):697doi: 10.1038/nnano.2008.348.
(2008). The same old story. Nature nanotechnology, 3(12), 697. https://doi.org/10.1038/nnano.2008.348
"The same old story." Nature nanotechnology vol. 3,12 (2008): 697. doi: https://doi.org/10.1038/nnano.2008.348
The same old story. Nat Nanotechnol. 2008 Dec;3(12):697. doi: 10.1038/nnano.2008.348. PMID: 19057580.
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Nanotechnology in ophthalmology.

Canadian journal of ophthalmology. Journal canadien d'ophtalmologie

Zarbin MA, Montemagno C, Leary JF, Ritch R.
PMID: 20871642
Can J Ophthalmol. 2010 Oct;45(5):457-76. doi: 10.3129/i10-090.

Nanotechnology involves the creation and use of materials and devices at the size scale of intracellular structures and molecules, and involves systems and constructs in the order of

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Zarbin MA, Montemagno C, Leary JF, et al. Nanotechnology in ophthalmology. Can J Ophthalmol. 2010;45(5):457-76doi: 10.3129/i10-090.
Zarbin, M. A., Montemagno, C., Leary, J. F., & Ritch, R. (2010). Nanotechnology in ophthalmology. Canadian journal of ophthalmology. Journal canadien d'ophtalmologie, 45(5), 457-76. https://doi.org/10.3129/i10-090
Zarbin, Marco A, et al. "Nanotechnology in ophthalmology." Canadian journal of ophthalmology. Journal canadien d'ophtalmologie vol. 45,5 (2010): 457-76. doi: https://doi.org/10.3129/i10-090
Zarbin MA, Montemagno C, Leary JF, Ritch R. Nanotechnology in ophthalmology. Can J Ophthalmol. 2010 Oct;45(5):457-76. doi: 10.3129/i10-090. PMID: 20871642.
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Showing 1 to 12 of 383 entries