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nanomaterials
211 Exhibits
20,000 Nanoleagues Under the SEM: Exploring the Power Within
20,000 Nanoleagues Under the SEM 2
20,000 Nanoleagues Under the SEM 3
20,000 Nanoleagues Under the SEM 4
20,000 Nanoleagues Under the SEM 5
3D Reconstruction of Tibia Bone
A Golden Opportunity for Drug Delivery
A La Node: Nanoparticle Vaccines Jumpstart the Immune System
Nano-Bio Interface with Red Blood Cells (B&W)
Amphiphilic Nanoparticles Improve Immune Response 1
Amphiphilic Nanoparticles Improve Immune Response 2
Amphiphilic Nanoparticles Improve Immune Response 3
Amphiphilic Nanoparticles Improve Immune Response 4
Anti-Bacterial Nanoparticles
Attacking Cancer with Targeted Nanoparticles
Beyond the Red 4
Beyond the Red 2
Beyond the Red 3
Beyond the Red 5
Beyond the Red: Seeing Tumors in a New Light
Bio-inspired Microrobots Hunt Down Cancer Cells 1a
Bio-inspired Microrobots Hunt Down Cancer Cells 1b
Bio-inspired Microrobots Hunt Down Cancer Cells 2a
Bio-inspired Microrobots Hunt Down Cancer Cells 2b
Bio-inspired Microrobots Hunt Down Cancer Cells 3
Biodistribution of Nanoparticles in a Lymph Node, Warhol Style
Biodistribution of Nanoparticles in a Lymph Node
Biopolymer in Bloom: A New Environment for Studying Cell Growth
Blood Clots with Fibrin 1
Blood Clots with Fibrin 2
Blood Clots with Fibrin and Nanofiber, Colorized
Blood Clots with Nanofiber 1
Blood Clots with Nanofiber 2
Blood Clots with Nanofiber 3
Blood, Heat, and Tumors: Improving Drug Delivery with Gold Nanorods
Boosting the Immune System to Treat Cancer
Breast Cancer Cells Spread Over a Textured Surface, Image #1
Breast Cancer Cells Spread Over a Textured Surface, Image #2
Breast Cancer Cells Spread Over a Textured Surface, Image #3
Carbon Nanotubes on Electrospun Fibers,
Version #1
Carbon Nanotubes on Electrospun Fibers,
Version #2
Carbon Nanotubes on Electrospun Fibers,
Version #3
Carbon Nanotubes on Electrospun Fibers,
Version #4
Carbon Nanotubes on Electrospun Fibers,
Version #5
Cellular Injections: Using Nanowires to Investigate the Causes of Leukemia
Cellular Uptake of siRNA-Carrying Nanoparticles
Delivering mRNA to Lung Tissue A
Delivering mRNA to Lung Tissue B
Delivering mRNA to Lung Tissue C
Delivering mRNA to the Bronchus
Delivering Nanoparticle Treatments Through Skin
Delivery of Vaccine-Containing Particles to the Skin
Developing a Nanoparticle Vaccine for Lung Cancer
Dispersion of Amphphilic Gold Nanoparticles 1
Dispersion of Amphphilic Gold Nanoparticles 2
Dispersion of Amphphilic Gold Nanoparticles 3
Dispersion of Amphphilic Gold Nanoparticles 4
Down-Conversion Nanoparticle Loaded T-Cell
Down-Conversion Nanoparticles 1
Down-Conversion Nanoparticles 2
Electron Microscopy of Brain-like Patterns
Gold Nanoparticles Penetrate Membrane, Image #1
Gold Nanoparticles Penetrate Membrane, Image #2
Gold Nanoparticles Penetrate Membrane, Image #3
Gold Nanoparticles Penetrate Membrane, Image #4
Gold Nanorods Heat Up an Ovarian Tumor
Hitting a Nerve: Delivering Drugs into a Neuron
Hydrogel of Virus-Templated Nanowires, Version #1
Hydrogel of Virus-Templated Nanowires, Version #2
Hydrogel of Virus-Templated Nanowires, Version #3
Hydrogel of Virus-Templated Nanowires, Version #4
Hydrogel Synthesis and Assembly
Immobilized Nanoparticles in an Array
Immune Cells "Eat" Vaccine-Carrying Particles
Implantable Carbon Nanotubes for Detecting Cancer
In Good Shape: Using Machine Learning to Improve Cancer Therapy
In Robotico Model of Nanoparticle Tissue Penetration, Image A
In Robotico Model of Nanoparticle Tissue Penetration, Image B
In Robotico Model of Nanoparticle Tissue Penetration, Image C
Into the Breach: On-Demand Pharmacies for Programmable Drug Delivery
Layer-by-Layer Assembly of PRINT Nanoparticles, Version #1
Layer-by-Layer Assembly of PRINT Nanoparticles, Version #2
Layer-by-Layer Film for Rapid Drug Release
License to Kill 2: Empowering the Immune System to Fight Cancer
License to Kill: Empowering the Immune System to Fight Cancer
Lipid Nanoparticles in the Lung 1
Lipid Nanoparticles in the Lung 2
Lipid Nanoparticles in the Lung 3
Lipid Nanoparticles in the Lung 4
Lipid-based Nanoparticle Platform for HIV Vaccination 1
Lipid-based Nanoparticle Platform for HIV Vaccination 2
Localized Heating of Tumor Vasculature
Making it Stick: Therapeutics Cling to a Blood Vessel
Making the Cut: Probing Enzyme Activity with Nanosensors
Mimicry in Search of A Vaccine for HIV
A Miniature Mesh: Using Viruses to Construct Nanomaterials
Molecular Velcro and Nanoparticle Transport 1
Molecular Velcro and Nanoparticle Transport 2
Nano-Bio Interface with Red Blood Cells (Color)
Nanofibers Protrude from a Polymer Surface, Image #1
Nanofibers Protrude from a Polymer Surface, Image #2
Nanoparticle Delivery to Cancer Cells
Nanoparticle Trafficking Inside a Cell
Nanoparticles Deliver Therapeutic Genes 1
Nanoparticles Deliver Therapeutic Genes 2
Nanoparticles Enter Glioblastoma Tumor Cells 1
Nanoparticles Enter Glioblastoma Tumor Cells 2
Nanoparticles in an Adhesive Hydrogel
Nanoparticles Incubate Cancer Cells
Nanoparticles Induce Intestinal Growth
Nanoparticles Interact with Microrobots in Liquid, Image 3 (Rainbow)
Nanoparticles Mimic Viruses, Image #1
Nanoparticles Mimic Viruses, Image #2
Nanoparticles Mimic Viruses, Image #3
Nanoparticles on a Salt Crystal Leaf
Nanoparticles Target Endothelial Cells
Nanoparticles Target Glioblastoma
Nanoparticles Targeting Prostate Cancer Cell Receptors
Nanosensors for Personalized Medicine
Nanosponges Deliver RNAi, Image A
Nanosponges Deliver RNAi, Image B
Nanotechnologies for Bone Tissue Repair, Image #1
Nanotechnologies for Bone Tissue Repair, Image #2
Nanotechnologies for Bone Tissue Repair, Image #3
Nanotechnologies for Bone Tissue Repair, Image #4
New Applications for Soft Nanostructured Materials, Image 3
New Applications for Soft Nanostructured Materials, Image 2
Polymer Wetting on a Glass Slide 1
Polymer Wetting on a Glass Slide 2
Polymer-Coated Mesoporous Silica Nanoparticles
Polymeric Nanoparticles Enter Cells
Polymeric Nanoparticles for Targeted Drug Delivery, Version #1
Polymeric Nanoparticles for Targeted Drug Delivery, Version #2
Polymeric Scaffolds for Tissue Engineering 1
Polymeric Scaffolds for Tissue Engineering 2
Polymeric Scaffolds for Tissue Engineering 3
Polymeric Scaffolds for Tissue Engineering 4
Porous Polymer Microspheres for Drug Delivery
Precision Polymers Improve Combination Chemotherpay
Reach to Teach: A lesson on d*raining vaccines
Robotically Assembled Layer-by-Layer Thin Films
Salt Crystals on the Surface of a Microsphere
Searching for Gold on Silken Nanofibers, Image #1
Searching for Gold on Silken Nanofibers, Image #2
Searching for Gold on Silken Nanofibers, Image #3
Searching for Gold on Silken Nanofibers, Image #4
Searching for Gold on Silken Nanofibers, Image #5
Smart Nanoparticles Meet Ovarian Cancer Cells 1
Smart Nanoparticles Meet Ovarian Cancer Cells 2
Smart Nanoparticles Meet Ovarian Cancer Cells 3
Smart Nanoparticles Meet Ovarian Cancer Cells 4
Smart Nanoparticles Meet Ovarian Cancer Cells 5
Special Delivery 1: Gene Therapy and Polymer Nanotechnology
Special Delivery 2: Gene Therapy and Polymer Nanotechnology
Spontaneous Arrangement of Polymer-Covered Nanoparticles
Spray-On Layer-by-Layer Drug Delivery
Spray-On Nanoparticles: The Recovery, Version 1
Spray-On Nanoparticles: The Recovery, Version 2
Spray-On Nanoparticles: The Recovery, Version 3
Structure of a Hydrogel 1
Structure of a Hydrogel 2
Structure of a Hydrogel 3
Structure of a Hydrogel 4
Structure of a Hydrogel 5
Structure of a Hydrogel 6
Target Practice in Purple
Target Practice in Red
Target Practice: Improving Gene Therapy With Nanotechnology
Targeted Delivery of Nanoparticle-based Vaccines 2
Targeted Delivery of Nanoparticle-based Vaccines 3
Targeted Delivery of Nanoparticle-based Vaccines 4
Targeted Delivery of Nanoparticle-based Vaccines 5
Targeted Delivery of Nanoparticle-based Vaccines 6
Then and Now: Evolution of a Miniature Mesh
Therapeutic Cells Loaded with Synthetic Particles, Version #1
Therapeutic Cells Loaded with Synthetic Particles, Version #2
Therapeutic Cells Loaded with Synthetic Particles, Version #3
Therapeutic Nanoparticles Stick to a Blood Vessel, Version #1
Therapeutic Nanoparticles Stick to a Blood Vessel, Version #2
Tiny Trojan Horses 2
Tiny Trojan Horses: Tumor-Penetrating Nanoparticles Infiltrate Cancer Cells
Tortuous Trafficking: Nanoparticles Traverse the Blood Brain Barrier
Toward Remote Control of Hormone Release 1
Toward Remote Control of Hormone Release 2
Towards a Prophylactic HIV Vaccine
Trafficking Nanoparticles to the Lymph Nodes 1
Trafficking Nanoparticles to the Lymph Nodes 2
Trafficking Nanoparticles to the Lymph Nodes 3
Treating Oral Cancer with Nanoparticles 1
Triplex Nanoparticles Against Cancer 1
Triplex Nanoparticles Against Cancer 2
Triplex Nanoparticles Against Cancer 3
Tumor-Responsive Nanoparticles Dive Deep
Tumor-Seeking Bacteria in a Magnetic Field 1
Tumor-Seeking Bacteria in a Magnetic Field 2
Tumor-Seeking Bacteria in a Magnetic Field 3
Tumor-Seeking Bacteria in a Magnetic Field 4
Tumor-Seeking Bacteria in a Magnetic Field 5
Up Close and Personal with a Biomimetic Polymer 1
Up Close and Personal with a Biomimetic Polymer 2
Up Close and Personal with a Biomimetic Polymer 3
Up Close and Personal with a Biomimetic Polymer4
Uptake of a LbL Nanoparticle 1
Uptake of a LbL Nanoparticle 2
Uptake of Nanoparticles into HeLa Cells, Version #1
Uptake of Nanoparticles into HeLa Cells, Version #2
Virus-Templated Copper Nanowires
Virus-Templated Copper Nanowires with Fused Silver Nanoparticles
Virus-Templated Copper Nanowires with Tin Nanoparticles, Version #1
Virus-Templated Copper Nanowires with Tin Nanoparticles, Version #2
Virus-Templated Nickel Nanowires, Mechanically Fractured