We discuss a new approach to surface-enhanced Raman spectroscopy that utilizes nano-pockets to capture target molecules, ensuring a highly sensitive way to detect chemical processes.
Taking A Closer Look at Zeolites With Electron Microscopy
By Rebecca Ingle, Ph.D
Nano-Pocket Captures Target Molecules in New, Sensitive SERS
By Megan Craig
How Raman Spectroscopy Advances 2D Material Research
By Gopika G, Ph.D
SAXS Measurements to Compare Lipid Nanoparticles With and Without RNA
Applications of Boron Nitride-Based Hydrogels
By Owais Ali
Polymeric Nanoparticles: Properties and Applications
By Michael Greenwood
Researchers Create New 2D Material Using a Microwave
New Technique Makes Thermoresponsive GO Nanosheets Simpler and More Efficient
Graphene Week: Showcasing the Influence of Graphene on Society
Bruker Introduces Next-Generation Nanomechanical Test System
From Bruker Nano Surfaces and Metrology
Scientists Create Ultra-Strong, Lightweight Material Using DNA and Glass
Atomic Precision Synthesis of Metal Nanoclusters with Tunable Superlattice Structures
New Theory Explains How Nanoparticles Enter and Exit the Tumors
Producing Nanoworms with Adjustable Properties
EFNS Tech Day 2024 by Bruker
From Bruker BioAFM
Generating Power with Saltwater Using a Nanofluidic Device
Electrochemical Hydrogen Evolution Catalysis Using Gold Nanoclusters
Color-Changing Coating Keeps Buildings Cool in Summer and Warm in Winter
Siyu Chen, Ph.D.
Dr. Yitong Dong
Roey Elnathan, Ph.D.
Talapin Lab, University of Chicago
In this interview, we discuss a new approach to surface-enhanced Raman spectroscopy that utilizes nano-pockets to capture target molecules, ensuring a highly sensitive way to detect chemical processes.
Dr. Yitong Dong has recently been awarded funding to study custom composite nanocrystals, which could help to create advanced quantum communication technologies. Learn more about this project in this interview.
We take a closer look at the fusion of nanotechnology and CAR-T therapy through our interview with Dr. Roey Elnathan about a new approach that harnesses the capabilities of nanoneedles to efficiently deliver genetic materials to target cells.
The Verifire™ interferometer system provides fast and reliable measurements of surface form error.
This article outlines how Unity, Oxford Instruments’ new detector for a revolutionary new imaging technique, can be used to revolutionize imaging.
Discover the compact, fast rotary table V-610 for precision testing and manufacture.