The Experts below are selected from a list of 246 Experts worldwide ranked by ideXlab platform
Bruce Klitzman - One of the best experts on this subject based on the ideXlab platform.
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Vascularization of Porous PolyHEMA Scaffolds
The FASEB Journal, 2015Co-Authors: Lin Liao, Eugenia H. Cho, Alina Boico, Kristen Helton, Janna K. Register, Andrew M. Fales, Tuan Vo-dinh, Natalie Wisniewski, Gregory M. Palmer, Bruce KlitzmanAbstract:Objective: The purpose of this study was to quantify the mass transport capabilities of implanted scaffolds for In Vivo Diagnostics, therapeutics, and cell delivery. We utilized matrix morphology t...
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Tissue Integration of porous polyHEMA scaffold (670.11)
The FASEB Journal, 2014Co-Authors: Eugenia H. Cho, Alina Boico, Nga L. Brown, Natalie A. Wisniewski, Kristen Helton, Janna K. Register, Andrew M. Fales, Tuan Vo-dinh, Thies Schroeder, Bruce KlitzmanAbstract:Purpose: To maximize mass transport Into biomaterial scaffolds for regenerative medicIne, In Vivo Diagnostics, therapeutics, and cell delivery. We utilized matrix morphology to encourage long-term ...
Richard P Van Duyne - One of the best experts on this subject based on the ideXlab platform.
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surface enhanced raman spectroscopy biosensIng In Vivo Diagnostics and multimodal imagIng
Analytical Chemistry, 2016Co-Authors: Anne Isabelle Henry, Bhavya Sharma, Fernanda M Cardinal, Dmitry Kurouski, Richard P Van DuyneAbstract:This perspective presents recent developments In the application of surface-enhanced Raman spectroscopy (SERS) to biosensIng, with a focus on In Vivo Diagnostics. We describe the concepts and methodologies developed to date and the target analytes that can be detected. We also discuss how SERS has evolved from a “poInt-and-shoot” stand-alone technique In an analytical chemistry laboratory to an Integrated quantitative analytical tool for multimodal imagIng Diagnostics. FInally, we offer a guide to the future of SERS In the context of clInical Diagnostics.
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correlated structure and optical property studies of plasmonic nanoparticles
Journal of Physical Chemistry C, 2011Co-Authors: Anne Isabelle Henry, Julia M Bingham, Emilie Ringe, Laurence Marks, George C Schatz, Richard P Van DuyneAbstract:This article provides a review of our recent studies of sIngle metal nanoparticles and sIngle nanoparticle clusters aimed at correlatIng the structural and plasmonic properties of the same entity. The correlation between the structure and the optical properties arisIng from the localized surface plasmon resonance (LSPR) on sIngle nanoparticles from various samples is described. Nanoparticles of different materials (Ag and Au) and shapes (spheres, cubes, triangles) are considered. Experiments were carried out usIng transmission electron microscopy (TEM), dark-field spectroscopy, and surface-enhanced Raman spectroscopy (SERS). Results of those measurements were compared with electrodynamics calculations to provide Insight Into the Interpretation and physical meanIng of the experimental results. We examIne correlated studies of triangular nanoparticle arrays to highlight the significance of sIngle entity measurements over ensemble-averaged measurements. Furthermore, we show how an examInation of statistics on large data sets helps draw quantitative structure―LSPR relationships. We also show that implementIng SERS In correlated measurements improves the understandIng of factors important In determInIng SERS enhancements. FInally, we extend the scope of correlated measurements to the trackIng and controlled manipulation of sIngle nanoparticles, thus pavIng the way for In Vivo Diagnostics usIng nanomaterials.
Eugenia H. Cho - One of the best experts on this subject based on the ideXlab platform.
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Vascularization of Porous PolyHEMA Scaffolds
The FASEB Journal, 2015Co-Authors: Lin Liao, Eugenia H. Cho, Alina Boico, Kristen Helton, Janna K. Register, Andrew M. Fales, Tuan Vo-dinh, Natalie Wisniewski, Gregory M. Palmer, Bruce KlitzmanAbstract:Objective: The purpose of this study was to quantify the mass transport capabilities of implanted scaffolds for In Vivo Diagnostics, therapeutics, and cell delivery. We utilized matrix morphology t...
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Tissue Integration of porous polyHEMA scaffold (670.11)
The FASEB Journal, 2014Co-Authors: Eugenia H. Cho, Alina Boico, Nga L. Brown, Natalie A. Wisniewski, Kristen Helton, Janna K. Register, Andrew M. Fales, Tuan Vo-dinh, Thies Schroeder, Bruce KlitzmanAbstract:Purpose: To maximize mass transport Into biomaterial scaffolds for regenerative medicIne, In Vivo Diagnostics, therapeutics, and cell delivery. We utilized matrix morphology to encourage long-term ...
Anne Isabelle Henry - One of the best experts on this subject based on the ideXlab platform.
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surface enhanced raman spectroscopy biosensIng In Vivo Diagnostics and multimodal imagIng
Analytical Chemistry, 2016Co-Authors: Anne Isabelle Henry, Bhavya Sharma, Fernanda M Cardinal, Dmitry Kurouski, Richard P Van DuyneAbstract:This perspective presents recent developments In the application of surface-enhanced Raman spectroscopy (SERS) to biosensIng, with a focus on In Vivo Diagnostics. We describe the concepts and methodologies developed to date and the target analytes that can be detected. We also discuss how SERS has evolved from a “poInt-and-shoot” stand-alone technique In an analytical chemistry laboratory to an Integrated quantitative analytical tool for multimodal imagIng Diagnostics. FInally, we offer a guide to the future of SERS In the context of clInical Diagnostics.
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correlated structure and optical property studies of plasmonic nanoparticles
Journal of Physical Chemistry C, 2011Co-Authors: Anne Isabelle Henry, Julia M Bingham, Emilie Ringe, Laurence Marks, George C Schatz, Richard P Van DuyneAbstract:This article provides a review of our recent studies of sIngle metal nanoparticles and sIngle nanoparticle clusters aimed at correlatIng the structural and plasmonic properties of the same entity. The correlation between the structure and the optical properties arisIng from the localized surface plasmon resonance (LSPR) on sIngle nanoparticles from various samples is described. Nanoparticles of different materials (Ag and Au) and shapes (spheres, cubes, triangles) are considered. Experiments were carried out usIng transmission electron microscopy (TEM), dark-field spectroscopy, and surface-enhanced Raman spectroscopy (SERS). Results of those measurements were compared with electrodynamics calculations to provide Insight Into the Interpretation and physical meanIng of the experimental results. We examIne correlated studies of triangular nanoparticle arrays to highlight the significance of sIngle entity measurements over ensemble-averaged measurements. Furthermore, we show how an examInation of statistics on large data sets helps draw quantitative structure―LSPR relationships. We also show that implementIng SERS In correlated measurements improves the understandIng of factors important In determInIng SERS enhancements. FInally, we extend the scope of correlated measurements to the trackIng and controlled manipulation of sIngle nanoparticles, thus pavIng the way for In Vivo Diagnostics usIng nanomaterials.
Alina Boico - One of the best experts on this subject based on the ideXlab platform.
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Vascularization of Porous PolyHEMA Scaffolds
The FASEB Journal, 2015Co-Authors: Lin Liao, Eugenia H. Cho, Alina Boico, Kristen Helton, Janna K. Register, Andrew M. Fales, Tuan Vo-dinh, Natalie Wisniewski, Gregory M. Palmer, Bruce KlitzmanAbstract:Objective: The purpose of this study was to quantify the mass transport capabilities of implanted scaffolds for In Vivo Diagnostics, therapeutics, and cell delivery. We utilized matrix morphology t...
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Tissue Integration of porous polyHEMA scaffold (670.11)
The FASEB Journal, 2014Co-Authors: Eugenia H. Cho, Alina Boico, Nga L. Brown, Natalie A. Wisniewski, Kristen Helton, Janna K. Register, Andrew M. Fales, Tuan Vo-dinh, Thies Schroeder, Bruce KlitzmanAbstract:Purpose: To maximize mass transport Into biomaterial scaffolds for regenerative medicIne, In Vivo Diagnostics, therapeutics, and cell delivery. We utilized matrix morphology to encourage long-term ...
