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Ray, Paresh C.

One or more keywords matched the following properties of Ray, Paresh C.

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overview	The development of new scientific concepts and technologies, especially in emerging interdisciplinary fields, is the career goal of Dr. Paresh Ray. As a new faculty Dr. Ray’s vision is to continue research at the interface of chemistry and biology that include exploring new chemical strategies for the imaging and therapy of cancer cell, multi drug resistance bacteria, creating new nanobased sensor for different chemical and biological toxin, designing multifunctional nanomaterial for multimodal imaging, and enhancing our understanding of biomolecular interaction with nanosurface. Dr. Ray thinks that new developments in nano technology and plasmon spectroscopy can substantially improve the ability to carry out the mission of USA’s Health, Energy and Environmental Research.

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Value

overview

The development of new scientific concepts and technologies, especially in emerging interdisciplinary fields, is the career goal of Dr. Paresh Ray. As a new faculty Dr. Ray’s vision is to continue research at the interface of chemistry and biology that include exploring new chemical strategies for the imaging and therapy of cancer cell, multi drug resistance bacteria, creating new nanobased sensor for different chemical and biological toxin, designing multifunctional nanomaterial for multimodal imaging, and enhancing our understanding of biomolecular interaction with nanosurface. Dr. Ray thinks that new developments in nano technology and plasmon spectroscopy can substantially improve the ability to carry out the mission of USA’s Health, Energy and Environmental Research.

One or more keywords matched the following items that are connected to Ray, Paresh C.

Item Type	Name
Academic Article	A gold nanocage-CNT hybrid for targeted imaging and photothermal destruction of cancer cells.
Academic Article	Nanomaterials for targeted detection and photothermal killing of bacteria.
Academic Article	Theranostic magnetic core-plasmonic shell star shape nanoparticle for the isolation of targeted rare tumor cells from whole blood, fluorescence imaging, and photothermal destruction of cancer.
Academic Article	Popcorn-shaped magnetic core-plasmonic shell multifunctional nanoparticles for the targeted magnetic separation and enrichment, label-free SERS imaging, and photothermal destruction of multidrug-resistant bacteria.
Academic Article	Highly efficient and excitation tunable two-photon luminescence platform for targeted multi-color MDRB imaging using graphene oxide.
Academic Article	Gold nanocage assemblies for selective second harmonic generation imaging of cancer cell.
Academic Article	Theranostic nanomedicine for cancer detection and treatment.
Academic Article	Multifunctional biocompatible graphene oxide quantum dots decorated magnetic nanoplatform for efficient capture and two-photon imaging of rare tumor cells.
Academic Article	Hybrid Theranostic Platform for Second Near-IR Window Light Triggered Selective Two-Photon Imaging and Photothermal Killing of Targeted Melanoma Cells.
Academic Article	Multimodal Nonlinear Optical Imaging of Live Cells Using Plasmon-Coupled DNA-Mediated Gold Nanoprism Assembly.
Academic Article	Development of Multifunctional Fluorescent-Magnetic Nanoprobes for Selective Capturing and Multicolor Imaging of Heterogeneous Circulating Tumor Cells.
Academic Article	Extremely High Two-Photon Absorbing Graphene Oxide for Imaging of Tumor Cells in the Second Biological Window.
Academic Article	Designing a multicolor long range nanoscopic ruler for the imaging of heterogeneous tumor cells.
Academic Article	Two-Photon Fluorescent Molybdenum Disulfide Dots for Targeted Prostate Cancer Imaging in the Biological II Window.
Concept	Diagnostic Imaging
Concept	Molecular Imaging
Academic Article	Water Triggered Synthesis of Highly Stable and Biocompatible 1D Nanowire, 2D Nanoplatelet, and 3D Nanocube CsPbBr3 Perovskites for Multicolor Two-Photon Cell Imaging.
Academic Article	Water-Soluble and Bright Luminescent Cesium-Lead-Bromide Perovskite Quantum Dot-Polymer Composites for Tumor-Derived Exosome Imaging.
Academic Article	An indolizine squaraine-based water-soluble NIR dye for fluorescence imaging of multidrug-resistant bacteria and antibacterial/antibiofilm activity using the photothermal effect.

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