BaySpec handheld Raman analyzers for biophotonics applications


The FirstGuard multi-wavelength handheld Raman analyzers from BaySpec (San Jose, CA) offer 532, 785 or 1064 nm excitation wavelengths, enabling significant light-induced fluorescence. Features include a high-power ~490 mW narrowband laser (~50 mW for 532 nm), proprietary Volume Phase Grating (VPG) technology, optimally cooled detector arrays for low light sensitivity, and single trigger activation. Biophotonics applications include food safety, biochemical, and pharmaceutical/neutraceutical incoming raw material identification.

More Products



BaySpec Introduces Next Generation FirstGuardTM Handheld Raman Analyzers

SAN JOSE, CA--(July 15, 2011) - BaySpec, Inc., a world leader in handheld spectral devices for small and large molecular chemical identification and analysis, announces the introduction of its next-generation FirstGuardTM, the world’s first multi-wavelength handheld Raman analyzer.  Building on the success of the XantusTM and first generation FirstGuardTM models our unique features and benefits include:

  • First Raman platform in the world to offer 532, 785 or 1064 nm excitation wavelengths
  • High power ~490mW narrowband laser (on 785 and 1064nm units; ~50mW for 532nm)
  • Utilizes BaySpec’s proprietary high throughput Volume Phase Grating (VPG)TM technology
  • Optimally cooled detector arrays for low light sensitivity
  • Ruggedized handheld packaging
  • Single trigger activation
  • Integrated vial holder or direct point-and-shoot
  • Barcode scanner or RFID reader with batch reporting and print functions
  • Extended long-life 5 hour rechargeable battery
  • Powerful easy to use Micro2020TM 21 CRF Part 11 compliant analysis software
  • Weighs less than 5 lbs (2.3kg)
  • Qualification documentation and standard operating procedures available
  • Extended service, support and warranty programs available

The FirstGuardTM greatly reduces analysis costs and overall overhead.  As no contact or sample preparation is needed, materials can be analyzed through plastic bags, blister packs, glass containers or plastic drums improving worker safety from exposure to hazardous chemicals during inspection.  A fleet of instruments can be cloned with the same identification methods with excellent instrument-instrument repeatability and reliability.

The FirstGuardTM platform offers users a choice of excitation wavelength: 532, 785 or 1064nm allowing the user to measure difficult real-world samples where other instruments fail.  Depending on the nature of your sample, you may choose 532nm excitation for its high sensitivity or 1064nm excitation to suppress fluorescence or 785nm to address both concerns.  Many materials show significant light induced fluorescence when Raman spectrometers with 532nm or 785nm excitation wavelengths are used.  The fluorescence interference in “real-world” samples are typically orders of magnitude higher than the useful Raman signal.  BaySpec’s new long-wavelength 1064nm Raman spectral engines are capable of overcoming this fluorescence interference enabling the practical application of Raman technology in the field.

For the first time in analytical instrumentation history, a ruggedized, handheld, dispersive multi-wavelength Raman analytical instrument is available for measuring real-world samples.  This new handheld instrument provides great potential for rapid, direct, on-site Raman analysis.  Applications include food safety, homeland security, forensics, narcotics investigation, law enforcement, military & defense, chemical, biochemical, solar energy, plastics recycling, gemstones, anti-counterfeiting and pharmaceutical/ neutraceutical incoming raw material identification, et al.

About BaySpec
BaySpec, Inc., founded in 1999 with 100% research, development and manufacturing in the USA (San Jose, California), is a vertically integrated spectral sensing company. The company designs, manufactures and markets advanced spectral instruments, from UV-VIS-NIR spectrometers, to Handheld and Portable NIR and Raman Analyzers, to Soft and Deep-cooled Detector/Cameras, to laser and other light sources, and Microspectroscopy Instruments.  Ideal for the current and emerging markets of biomedical, pharmaceutical, chemical, food, semiconductor, homeland security, fiber sensing and optical telecommunications applications.  Over 30,000 spectral engines of all types shipped.


Posted by Lee Mather

Follow us on Twitter, 'like' us on Facebook, and join our group on LinkedIn

Follow OptoIQ on your iPhone; download the free app here.

Subscribe now to BioOptics World magazine; it's free!

Get All the BioOptics World News Delivered to Your Inbox

Subscribe to BioOptics World Magazine or email newsletter today at no cost and receive the latest news and information.

 Subscribe Now
Related Articles

Merz acquires laser tattoo removal device maker ON Light Sciences

Merz North America has acquired ON Light Sciences, which develops technologies to enhance laser-based dermatology procedures.

Shortwave-infrared device could improve ear infection diagnosis

An otoscope-like device that could improve ear infection diagnosis uses shortwave-infrared light instead of visible light.

Laser therapy extracts rare tumor that grew human hair, skin in boy's skull

About four years ago, a tumor comprised of human skin, hair, bone and cartilage was fast-growing inside a Ramsey, MN, 10-year-old youth's brain.

Low-level laser therapy could speed muscle recovery at Rio 2016 Olympics

The gold medal-winning women’s U.S. Gymnastics team is reportedly experimenting with infrared light therapy to alleviate pain and reduce swelling in its athletes. (Update: A spokesperson for ...

Neuro15 exhibitors meet exacting demands: Part 2

Increasingly, neuroscientists are working with researchers in disciplines such as chemistry and p...

Why be free?

A successful career contributed to keeping OpticalRayTracer—an optical design software program—fr...

LASER Munich 2015 is bio-bent

LASER World of Photonics 2015 included the European Conferences on Biomedical Optics among its si...

White Papers

Understanding Optical Filters

Optical filters can be used to attenuate or enhance an image, transmit or reflect specific wavele...

How can I find the right digital camera for my microscopy application?

Nowadays, image processing is found in a wide range of optical microscopy applications. Examples ...



Twitter- BioOptics World