To help global regulators identify, quantify, and qualify microplastics in the waterways around the globe researchers are deploying PerkinElmer's infrared (IR) spectroscopy instruments.
Using the Attivo and SciBite TERMite platforms, researchers can now unlock the value of unstructured data found in electronic medical records, to reveal medical discoveries that would otherwise be lost in too much data.
With the use of potentially harmful pesticides to protect berry crops on the rise, PerkinElmer introduces unique ways to detect and quantify pesticide residue in fruit.
Scientists at UCLA's David Geffen School of Medicine are working with bioluminescent, fluorescent, and positron emission tomography (PET) technologies to reduce infections in post-surgical orthopedic patients as well as fight against metabolic cancer.
Amid increased complexity of regulations, PerkinElmer's QSight™ Pesticide Analyzer solution provides labs with more uptime and competitive advantage to meet regulatory requirements.
A review of the growing dangers associated with antibiotics in milk and PerkinElmer's latest technology to discover these drugs in milk samples.
Missouri University Science and Technology researchers develop new SP-ICP-MS methodology to test for the presence of nanomaterials in drinking water.
Researchers offer evidence of the importance of epithelial-to-mesenchymal transition (EMT) in the progression of chronic kidney disease.
PerkinElmer recently introduced the Avio™ 200 instrument as the world's smallest inductively coupled plasma optical emission spectrometer (ICP-OES).
With dangerous levels of arsenic found in apple juice, PerkinElmer offers a new fast and reliable HPLC/ICP-MS process to measure arsenic in juice.
In a medical first, UNC researchers engineer and record skin cells becoming cancer killers using PerkinElmer’s IVIS system.
Monash Institute of Pharmaceutical Sciences is working to develop an inhaled oxytocin treatment for PPH, excessive bleeding after childbirth that kills an estimated 140,000 women a year.
Groundbreaking research using PerkinElmer's Vectra multispectral imaging platform may lead to new immunotherapy treatments for cancer.
Amid a growing crisis, PerkinElmer’s rapid response protocol is helping labs keep up with the rising demand in testing water for lead.
High-tech imaging systems help identify new drugs to fight multiple sclerosis.
Report on the various scientific methods available to uncover counterfeit and adulterated whiskies.
Milling the perfect flour is more complex than you think.
How TIBCO Spotfire® visualization and analysis software is helping to make better agronomics decisions faster.
Visualizing tumors with PerkinElmer’s Solaris™ imaging system.
Spectrum™ 10 software and innovative Adulterant Screen™ technology offers a simple, fast, and cost-effective solution to testing the purity of honey.
New multispectral cell imaging system aims to revolutionize tumor analysis
Informatics for scientists: PerkinElmer Signals™ for Translational System Helps to spur new medical discoveries and clinical treatments.
Shining a new light on cancer: A novel bioluminescent probe will help improve cancer treatments
Advanced technologies by PerkinElmer detect food adulterants in seconds
Novel test identifies lung cancer patients most likely to benefit from immune therapies
Beyond judging beer by its looks
Spanish researchers hope to revolutionize drug repositioning with new online tool NFFinder
Breakthrough research uses bacteria to target and kill cancer
Turning off gene signaling to cure pancreatic cancer
Is Your Food Authentic? Adulterant Screen™ to the Rescue. Detecting Food Fraud at the Push of a Button.