Corporate Banner
Satellite Banner
Technology
Networks
Scientific Communities
 
Become a Member | Sign in
Home>Products>This Product
  Products


You asked for faster speed, less cross-talk, easy operation and low cost … Shimadzu Listened!

Product Image
Product Description

To increase lab efficiency, researchers are constantly challenged to detect more target analytes with greater sensitivity in hundreds of samples per day. To meet this challenge, Shimadzu has developed the LCMS-8030, which combines the power of triple quadrupole mass spectrometry with unmatched speed to provide the ideal complement to its UHPLC systems.

Speed Beyond Comparison
The LCMS-8030 features ultrafast multiple reaction monitoring (MRM) transitions (dwell times of 1msec and pause times of 1msec), enabling data acquisition with up to 500 different channels per second. The improvements to the electronics provide ultrafast mass spectrum measurement speeds of 15,000 u/sec without sacrificing sensitivity or resolution, allowing full spectrum scans within a series of MRM measurements, and ultra-fast polarity switching (15msec) for the most information without signal deterioration.

Patented UFsweeper® technology accelerates ions out of the collision cell by forming a pseudo-potential surface. The result is high-efficiency collision-induced dissociation (CID) and ultra-fast ion transport, reducing the sensitivity losses and cross talk observed on other systems. In addition, higher radio frequency (RF) power capability minimizes pauses between each transition.

When coupled with Shimadzu’s Nexera UHPLC, the LCMS-8030 can provide reliable and accurate detection of peaks only one-second wide, maximizing UHPLC performance. With a polarity switching time of just 15 msec, ultra-fast triple quadrupole measurement time is now a reality.

Integrated Approach to Ultrafast Mass Spectrometry
The combination of the LCMS-8030 with Nexera also brings together the latest hardware on the same platform. The unified platform provides unmatched qualitative and quantitative analysis, increased productivity, and accelerated workflows for high-throughput analysis. Automated optimization of analytical conditions for each quantitative target compound, which is the key to high-sensitivity analysis, allows unattended, overnight operation. In addition, all software operations are handled seamlessly, reducing PC conflicts and the need for user intervention.

Easy Maintenance
With the LCMS-8030, maintenance has never been easier or more accessible. Its robust design allows maximum uptime, resulting in a system that can handle most complex matrices. Maintenance of the desolvation line without breaking vacuum minimizes instrument downtime.

Product You asked for faster speed, less cross-talk, easy operation and low cost … Shimadzu Listened!
Company Shimadzu
Price Request a quote
More Information View company product page
Catalog Number Unspecified
Quantity Unspecified
Company Logo

Shimadzu
Shimadzu Scientific Instruments 7102 Riverwood Drive, Columbia, MD 21046 USA

Tel: +1 410-381-1227
Fax: +1 410-381-1222
Email: kgmclaughlin@shimadzu.com



Scientific News
Flowering Regulation Mechanism Discovered
Monash researchers have discovered a new mechanism that enables plants to regulate their flowering in response to raised temperatures.
Turning Skin Cells into Heart, Brain Cells
In a major breakthrough, scientists at the Gladstone Institutes transformed skin cells into heart cells and brain cells using a combination of chemicals.
Nanoparticles Present Sustainable Way to Grow Food Crops
Nanoparticle technology can help reduce the need for fertilizer, creating a more sustainable way to grow crops such as mung beans.
How Scientists Use DNA to Track Disease Outbreaks
They’re the top questions on everyone’s mind when a new disease outbreak happens: where did the virus come from? When did this happen? How long has it been spreading in a particular country or group of people?
Genetic Risk Factors of Disparate Diseases Share Similar Biological Underpinnings
Penn Institute for Biomedical Informatics and colleagues identify "roadmap" of disease mechanisms to identify candidate drug targets.
Drugs that May Combat Deadly Antibiotic-Resistant Bacteria Uncovered
Study identifies 79 compounds that inhibit carbapenem-resistant Enterobacteriaceae (CRE).
Stem Cells Know How to Unwind
Research led by the Babraham Institute with collaborators in the UK, Canada and Japan has revealed a new understanding of how an open genome structure supports the long-term and unrestricted developmental potential in embryonic stem cells.
HIV Particles Used to Trap Intact Mammalian Protein Complexes
Belgian scientists from VIB and UGent developed Virotrap, a viral particle sorting approach for purifying protein complexes under native conditions.
Childhood Asthma Research Receives $2M
Research into the impact of a child’s upbringing and social and physical environments on the development of asthma will receive $2 million to tackle the condition that affects as many as one in three Canadians.
Growing Stem Cells More Safely
Nurturing stem cells atop a bed of mouse cells works well, but is a non-starter for transplants to patients – Brown University scientists are developing a synthetic bed instead.
Scroll Up
Scroll Down

Skyscraper Banner

Skyscraper Banner
Go to LabTube
Go to eposters
 
Access to the latest scientific news
Exclusive articles
Upload and share your posters on ePosters
Latest presentations and webinars
View a library of 1,800+ scientific and medical posters
3,000+ scientific and medical posters
A library of 2,500+ scientific videos on LabTube
4,500+ scientific videos
Close
Premium CrownJOIN TECHNOLOGY NETWORKS PREMIUM FOR FREE!