The Georgia Institute of Technology is one of the nation's top research universities, distinguished by its commitment to improving the human condition through advanced science and technology.
Georgia Tech's campus occupies 400 acres in the heart of the city of Atlanta, where more than 16,000 undergraduate and graduate students receive a focused, technologically based education.
Accredited by the Southern Association of Colleges and Schools (SACS), the Institute offers many nationally recognized, top-ranked programs. Undergraduate and graduate degrees are offered in the Colleges of Architecture, Engineering, Sciences, Computing, Management, and the Ivan Allen College of Liberal Arts. Georgia Tech consistently ranks among U.S. News & World Report's top ten public universities in the United States. In a world that increasingly turns to technology for solutions, Georgia Tech is using innovative teaching and advanced research to define the technological university of the 21st century.
Researchers Produce Supercapacitors from Carbon Nanotubes - New Technology
Coiling Nanoribbons Into Slinky Like Rings - New Technology
Using Lasers To Make Photonic Crystals From Hydrogel Nanoparticles - New Technology
Painless Drug Delivery From Microneedles - New Product
Microfluidic Devices Powered By Surface Tension - New Product
Drug Sniffing Dogs Could Be Replaced By An Electronic Chip - New Product
Nanoclusters of Niobium Display Non-metallic Properties at Ultra-cold Temperatures
Nanotechnologists To Use DNA Discovery For Medical Treatments - News Item
Single Crystal Piezoelectric Nanosprings Developed - New Product
Hydrogel Nanoparticles for Photonic Crystals - New Product
Researchers Build Optical Rectennas Using Carbon Nanotubes and Tiny Rectifiers
Researchers Propose Standards to Compare and Select Triboelectric Nanogenerators
Nano-Mechanical Tests Demonstrate High Damage Tolerance in Electrochemically-Lithiated Silicon Materials
Georgia Tech and JSNN Receive NNIN Award to Form Southeastern Nanotechnology Infrastructure Corridor
Researchers Realize Long-Standing Theoretical Prediction in Nonlinear Optical Metamaterials
Novel Microfluidic Technique to Fabricate MOF Membranes Inside Hollow Polymer Fibers
Superlattice Structures Self-Assembled from Silver Nanoparticles Form in Layers with Hydrogen Bonds
Researchers Develop New Thermal Interface Material Made of Nanofibers
New Microfluidic Method Finds That Aspirin May Not be Effective in All Patients with Narrowed Arteries
Nanolithography-Based Biomolecular Tweezers Enable Studying Impact of Mechanical Force on Cells
Scientists Design Endothelialized Microfluidic Device for Testing Nanomedicine
Magnetic Replicas of Sunflower Pollen Grains Possess Natural Adhesion Properties over Nanoscale Distances
Georgia Researchers Develop High-Performance Barrier Films Using Atomic Layer Deposition
DOE Grant for Additive Manufacturing Technique for Fabrication of 3D Nanoscale Structures
Mammalian Cells Prefer Disc-Shaped Rather Than Rod-Shaped Nanoparticles
‘Waviness’ in Carbon Nanotube Forests Dramatically Reduces Their Stiffness
Microscopic, Bottle-Like Structures can Release Drugs Inside the Body
Nanosensor Converts Fingerprints into Light Signals for Optical Processing
Researchers Develop Improved Technique for Producing Nanocrystals
Researchers Seek Ways to Synthesize Shape-Specific Nanoparticles
Solar Cells Fabricated on Cellulose Nanocrystal Substrates Can be Recycled in Water
Researchers Use Atomic Force Microscopy to Show How Mechanical Forces Control Cell Regulation
Study Provides New Insights into Cell Adhesion
Nanomaterials Power Self-Charging Cell
Microfluidics and Artificial Intelligence Help Sort Mutant Nematodes
Researchers Develop High-Output and Flexible Triboelectric Nanogenerators
New Technique Uses Super-Resolution Microscopy to Image Live Cell Structures
Scientists Develop Novel Technique to Fabricate Customized Ferroelectric Nanostructures
Researchers Discover Lifetime of Electrons at Lower Energy Levels in Graphene
Scientists Use Zinc Oxide Nanowires to Enhance Performance of LEDs
Researchers Develop Carbon Nanotube-Based Wireless Ammonia Sensor Prototype
Novel Techniques Facilitate Fabrication of Epitaxial Graphene Layers and Narrow Graphene Ribbons
ZnO Nanowire-Based Nanogenerator Drives Environmental Sensor System
Graphene Nanoribbons Conduct Electricity
Georgia Tech Scientists Find Anti-Fungal Compounds in Seaweed
CardioMEMS Acts as Catalyst for Developing Next Generation Medical Devices in Georgia
Georgia Tech Team Demonstrates New Transistor for Use in Flexible Plastic Electronics
Scientists Work on New System to Capture Ovarian Cancer Cells Using Magnetic Nanoparticles
Georgia Tech Professor Receives IEEE Fellow Status for Contribution in MEMS Technologies
Georgia Tech Scientists Develop Microfluidic Device to Orient Hundreds of Fly Embryos
Georgia Tech Physicist Wins Materials Research Society Medal for Developing Epi-Graphene
Georgia Tech-Led Nanomedicine Center for Nucleoprotein Machines Secures $16.1 Million Grant
New Nanoelectronics Technology Could Replace Conventional Microplate
Implant with Nanocluster Titanium Coating Promotes Bone Growth
EUREKA Grant Helps to Design Nanofiber-Based Polymer Thin Films for Tumor Treatment
Ping Wang, Ph.D.
We speak with researchers behind the latest advancement in graphene hBN research that could boost the development of next-generation electronic and quantum devices.
Dr. Laurene Tetard
AZoNano speaks with Dr. Laurene Tetard from the University of Central Florida about her upcoming research into the development of nanotechnology that can detect animal-borne diseases. The hope is that such technology can be used to help rapidly control infected mosquito populations to protect public
Dr. Amir Sheikhi
AZoNano speaks with Dr. Amir Sheikhi from Pennsylvania State University about his research into creating a new group of nanomaterials designed to capture chemotherapy drugs before they impact healthy tissue, amending a fault traditionally associated with conventional nanoparticles.
The Filmetrics F40 turns your benchtop microscope into an instrument for measuring thickness and refractive index.
Nikalyte’s NL-UHV is a state-of-the-art tool that allows the generation and deposition of nanoparticles in an Ultra-High vacuum onto a sample to create a functionalized surface.
The Filmetrics® F54-XY-200 is a thickness measurement tool created for automated sequence measurement. It is available in various wavelength configuration options, allowing compatibility with a range of film thickness measurement applications.