Nanotechnology Now

Our NanoNews Digest Sponsors

Heifer International

Wikipedia Affiliate Button

Home > Press > Advanced Raman Microspectroscopy Offered with Blue, Green, Red and Infrared Lasers

CRAIC Apollo on 2020 Closeup
CRAIC Apollo on 2020 Closeup

Abstract:
CRAIC Technologies is a leading innovator in the field of optical microanalysis. CRAIC Technologies is proud to announce the addition of even more laser wavelengths to its state-of-the-art CRAIC Apollo™ Raman microspectrometer. Designed to be added to many different types of light microscopes, the CRAIC Apollo™ enables scientists and engineers to measure the Raman spectra from microscopic samples or microscope sampling areas of large samples. The CRAIC Apollo™ can even be added to a CRAIC Technologies microspectrophotometer adding Raman microspectroscopy to UV-visible-NIR absorbance, reflectance and fluorescence microspectroscopy and imaging. And because the CRAIC Apollo™ is now offered with lasers with peak wavelengths ranging from 405 nm through the 830 nm, a whole host of capabilities are now available to researchers and engineers including resonance Raman spectroscopy and more. Additionally, mulitple lasers can be combined on a single microscope for maximum experimental flexibility. By offering these new lasers for the CRAIC Apollo™ Raman spectrometer, CRAIC Technologies is able to supply you an even more powerful tool for sample micro-analysis.

Advanced Raman Microspectroscopy Offered with Blue, Green, Red and Infrared Lasers

San Dimas, CA | Posted on November 2nd, 2012

"CRAIC Technologies has been an innovator in the field of UV-visible-NIR microanalysis since its founding. We have helped to advance the field of microscale analysis with innovative instrumentation, software, research and teaching. We have seen the need for Raman microspectroscopy in addition to our current capabilities of UV-visible-NIR and luminescence microspectroscopy. Therefore, we created the CRAIC Apollo™ Raman microspectrometer based around a large number of different lasers." states Dr. Paul Martin, President of CRAIC Technologies. "And by combining the power of Raman spectroscopy with our UV-visible microspectrophotometers, the customer no longer has purchase a separate instrument, nor move the sample between instruments and acquire the data separately. You can analyze the same microscopic area of the sample under the same conditions without additional sample preparation or instrument alignment. Improved results and sample analysis throughput can be dramatically increased."

The CRAIC Apollo™ Raman microspectrometer is a self contained unit that features Raman grade lasers as the light source, an advanced optical interface to the microscope, a Raman spectrometer and sophisticated software for instrument control and data analysis. Lasers are now offered throughout the visible and near infrared region and include 405, 473, 488, 546, 638, 660, 785 and 830 nm. Each module can be used either individually or the modules may be combined so that mulitple laser wavelengths can be used to probe a single sample. The idea is to provide a highly flexible Raman microspectrometer with the optimum laser wavelengths to enhance your spectroscopic results. These rugged, self-contained units are also designed to be used either with an optical microscope or with a CRAIC Technologies microspectrophotometer. With high sensitivity, durable design, ease-of-use, multiple imaging and spectroscopic techniques and the support of CRAIC Technologies, the CRAIC Apollo™ is more than just a Raman microspectrometer...it is a key component to your analytical solution.

####

About CRAIC Technologies, Inc.
CRAIC Technologies, Inc. is a global technology leader focused on innovations for microscopy and microspectroscopy in the ultraviolet, visible and near-infrared regions. CRAIC Technologies creates cutting-edge solutions, with the very best in customer support, by listening to our customers and implementing solutions that integrate operational excellence and technology expertise. CRAIC Technologies provides answers for customers in forensic sciences, biotechnology, semiconductor, geology, nanotechnology and materials science markets who demand quality, accuracy, precision, speed and the best in customer support.

For more information, please click here

Contacts:
CRAIC Technologies, Inc.

+1-310-573-8180

Copyright © CRAIC Technologies, Inc.

If you have a comment, please Contact us.

Issuers of news releases, not 7th Wave, Inc. or Nanotechnology Now, are solely responsible for the accuracy of the content.

Bookmark:
Delicious Digg Newsvine Google Yahoo Reddit Magnoliacom Furl Facebook

Related News Press

News and information

Oxford Instruments announces Dr Kate Ross as winner of the 2018 Lee Osheroff Richardson Science Prize for North and South America February 20th, 2018

Computers aid discovery of new, inexpensive material to make LEDs with high color quality February 20th, 2018

Unconventional superconductor may be used to create quantum computers of the future: They have probably succeeded in creating a topological superconductor February 19th, 2018

Photonic chip guides single photons, even when there are bends in the road February 16th, 2018

Imaging

Graphene on toast, anyone? Rice University scientists create patterned graphene onto food, paper, cloth, cardboard February 13th, 2018

New method enables high-resolution measurements of magnetism February 7th, 2018

Leti Presents Optical-Equipment Curving Technology that Improves Performance, Cuts Costs: ‘Disruptive Approach’ for Imaging Applications Presented in Paper At Photonics West and Demonstrated in Leti’s Booth February 2nd, 2018

New technology aiming to improve trueness in the piezoelectric microscopy characterization of ceramic materials January 26th, 2018

Announcements

Oxford Instruments announces Dr Kate Ross as winner of the 2018 Lee Osheroff Richardson Science Prize for North and South America February 20th, 2018

Computers aid discovery of new, inexpensive material to make LEDs with high color quality February 20th, 2018

Unconventional superconductor may be used to create quantum computers of the future: They have probably succeeded in creating a topological superconductor February 19th, 2018

Photonic chip guides single photons, even when there are bends in the road February 16th, 2018

Tools

Oxford Instruments announces Dr Kate Ross as winner of the 2018 Lee Osheroff Richardson Science Prize for North and South America February 20th, 2018

New method enables high-resolution measurements of magnetism February 7th, 2018

Nanometrics Selected for Fab-Wide Process Control Metrology by Domestic China 3D-NAND Manufacturer: Latest Fab Win Includes Comprehensive Suite for Substrate, Thin Film and Critical Dimension Metrology February 7th, 2018

A new radiation detector made from graphene: A new bolometer exploits the thermoelectric properties of graphene February 6th, 2018

Photonics/Optics/Lasers

Photonic chip guides single photons, even when there are bends in the road February 16th, 2018

Rutgers-Led Innovation Could Spur Faster, Cheaper, Nano-Based Manufacturing: Scalable and cost-effective manufacturing of thin film devices February 14th, 2018

Understanding brain functions using upconversion nanoparticles: Researchers can now send light deep into the brain to study neural activities February 14th, 2018

Graphene on toast, anyone? Rice University scientists create patterned graphene onto food, paper, cloth, cardboard February 13th, 2018

NanoNews-Digest
The latest news from around the world, FREE



  Premium Products
NanoNews-Custom
Only the news you want to read!
 Learn More
NanoStrategies
Full-service, expert consulting
 Learn More











ASP
Nanotechnology Now Featured Books




NNN

The Hunger Project