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Polymeric vaccines

Polymeric vaccines research highlights ORGANIC SEMICONDUCTORS NANOMEDICINE recombination, the team focused on the role of heating of the samples. The researchers Fast crystal patterning Polymeric vaccines studied very thin films of CdSe–CdS–ZnS Adv. Mater. http://doi.org/f3gkw8 (2015) Nature Biotechnol. http://doi.org/8z3 (2015) core–shell–shell dots, integrated with There are a number of design considerations highly conductive substrates and succeeded when developing nanoparticle-based vaccines in observing lasing on a microsecond with optimal immunogenicity. Previous studies timescale. Their findings underline the have shown how the effectiveness of a protein role of poor thermal management on the or peptide antigen can be enhanced through quest for lasing, coming from heating from co-administration of an appropriate adjuvant. the pump source. The authors believe that Geoffrey Lynn and colleagues now present a a further decrease in the lasing threshold, systematic study of how the physicochemical combined with a highly thermally conductive properties of polymer-linked adjuvants can substrate that also supports low-loss optical dictate their in vivo pharmacokinetic profiles. propagation, will allow for the observation of They firstly generated a combinatorial library continuous-wave lasing. MM of chemically distinct polymers bearing TRANSMEMBRANE PROTEINS Toll-like receptor agonist adjuvants in varying densities. They found that those polymers that Sorted by curvature were more susceptible to http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Nature Materials Springer Journals

Polymeric vaccines

Nature Materials , Volume 14 (12) – Nov 20, 2015

Polymeric vaccines

Abstract

research highlights ORGANIC SEMICONDUCTORS NANOMEDICINE recombination, the team focused on the role of heating of the samples. The researchers Fast crystal patterning Polymeric vaccines studied very thin films of CdSe–CdS–ZnS Adv. Mater. http://doi.org/f3gkw8 (2015) Nature Biotechnol. http://doi.org/8z3 (2015) core–shell–shell dots, integrated with There are a number of design considerations highly conductive substrates and succeeded when developing nanoparticle-based...
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Publisher
Springer Journals
Copyright
Copyright © 2015 by Nature Publishing Group, a division of Macmillan Publishers Limited. All Rights Reserved.
Subject
Materials Science; Materials Science, general; Optical and Electronic Materials; Biomaterials; Nanotechnology; Condensed Matter Physics
ISSN
1476-1122
eISSN
1476-4660
DOI
10.1038/nmat4501
Publisher site
See Article on Publisher Site

Abstract

research highlights ORGANIC SEMICONDUCTORS NANOMEDICINE recombination, the team focused on the role of heating of the samples. The researchers Fast crystal patterning Polymeric vaccines studied very thin films of CdSe–CdS–ZnS Adv. Mater. http://doi.org/f3gkw8 (2015) Nature Biotechnol. http://doi.org/8z3 (2015) core–shell–shell dots, integrated with There are a number of design considerations highly conductive substrates and succeeded when developing nanoparticle-based vaccines in observing lasing on a microsecond with optimal immunogenicity. Previous studies timescale. Their findings underline the have shown how the effectiveness of a protein role of poor thermal management on the or peptide antigen can be enhanced through quest for lasing, coming from heating from co-administration of an appropriate adjuvant. the pump source. The authors believe that Geoffrey Lynn and colleagues now present a a further decrease in the lasing threshold, systematic study of how the physicochemical combined with a highly thermally conductive properties of polymer-linked adjuvants can substrate that also supports low-loss optical dictate their in vivo pharmacokinetic profiles. propagation, will allow for the observation of They firstly generated a combinatorial library continuous-wave lasing. MM of chemically distinct polymers bearing TRANSMEMBRANE PROTEINS Toll-like receptor agonist adjuvants in varying densities. They found that those polymers that Sorted by curvature were more susceptible to

Journal

Nature MaterialsSpringer Journals

Published: Nov 20, 2015

There are no references for this article.