Please select a community
Automation & Microfluidics
Biologics & Bioprocessing
Chemical Process Scale Up
Food & Beverage Analysis
Forensic Science & Clinical Toxicology
Genotyping & Gene Expression
LIMS & ELNs
Metabolomics & Lipidomics
Molecular & Clinical Diagnostics
Next Gen Sequencing
Stem Cells, Cellular Therapy & Biobanking
Become a Member
Quantitation Limit of Pharmaceuticals by UV Spectrophotometry
Quantitation of Nucleic Acid
Quantitative Determination of Caffeine in Beverages and soft Drinks Us
Quantitative Determination of Glucose in an Energy Drink, Apple Juice
Quantitative Determination of the Aspirin Content of Tablets Using UV
Quantitative Determination of Total Bile Acids with a Thermo Scientifi
Thermo Fisher Scientific
Quantitative, High-Throughput, Fluorescent-Based Bioassay to Detect Sc
Rapid Detection of Counterfeit and Substandard Medicines with Handheld
Rigaku Raman Technologies
Standard Method for Hydrogen Content in Fuels
Oxford Instruments Magnetic Resonance
showing results 37 to 45 of 49
Kwansei Gakuin University in Hyogo, Japan, Uses Raman Microscopy
Raman Microscopy study crystallographic defects in silicon carbide wafers.
Structural Discoveries Could Aid in Better Drug Design
Scientists have uncovered the structural details of how some proteins interact to turn two different signals into a single integrated output.
X-ray Laser Experiment Could Help in Designing Drugs for Brain Disorders
Scientists found that when two protein structures in the brain join up, they act as an amplifier for a slight increase in calcium concentration, triggering a gunshot-like release of neurotransmitters from one neuron to another.
Team Identifies Structure of Tumor-Suppressing Protein
An international group of researchers led by Carnegie Mellon University physicists Mathias Lösche and Frank Heinrich have established the structure of an important tumor suppressing protein, PTEN.
Major Innovation in Molecular Imaging Delivers Spatial and Spectral Info Simultaneously
Berkeley Lab scientist invents technique to combine spectroscopy with super-resolution microscopy, enabling new ways to examine cell structures and study diseases.
Helicobacter Pylori's Secret Weapon
Finding the molecular interactions that make this pathogen so successful in such a harsh environment has, until now, proved elusive.
Unprecedented Insights Into the Reactions Powering Fuel Cells
Nanotech-enabled chip developed at UCLA can analyze chemical reactions more accurately than large machines
Ultrafast Laser Pulses for Spectroscopy and Biomedical Applications
Graphene Flagship researchers have developed an optical fibre laser that emits pulses with durations equivalent to just a few wavelengths of the light used. This fastest ever laser based on graphene will be ideal for use in ultrafast spectroscopy, and in surgical lasers that avoid heat damage to living tissue.
Device May Detect Urinary Tract Infections Faster
A Lab-on-a-Disc platform developed by a German and Irish team of researchers dramatically cut the time to detect bacterial species that cause urinary tract infections -- a major cause of sepsis.
New Hybrid Microscope Offers Unparalleled Capabilities
A microscope being developed at the Department of Energy’s Oak Ridge National Laboratory will allow scientists studying biological and synthetic materials to simultaneously observe chemical and physical properties on and beneath the surface.
Advertise On This Site
Terms & Conditions
©2015 Technology Networks
, all rights reserved.
Latest presentations and webinars
2,500+ scientific and medical posters
3,800+ scientific videos
JOIN TECHNOLOGY NETWORKS PREMIUM FREE!