Low Volume Flow Cell

Name: Low Volume Flow Cell
Brand: World Precision Instruments
SKU: LWCC-M-10
Price: 2600.0 USD
Availability: InStock

$2,600

LWCC-M-10

From $2,600 - $2,800

Length (mm) 10 mm 100 mm 50 mm

Prices valid in USA, Canada, and PR only.

MicroLWCC is a new fiber optic low volume flow cell for UV/VIS/NIR absorbance analysis. Based on WPI’s established liquid core waveguide technology, the analyte solution functions as the core of a fluid filled light waveguide. Wetted parts in the sample cell light path are PEEK, fused silica and PTFE. Optical fibers are used to transport light to and from the sample cell. The cell can be used in biochemistry for DNA, RNA & protein quantification, colorimetric nutrient and trace metal analysis, drug discovery and dissolution testing, process control, and HPLC analysis.

Details

For FIA, HPLC and process analysis

UV/VIS flow cell for absorbance
Low internal volume
Fits 500 and 600 µm fibers [Web part # 505195 Catalog part # WVLUXUVIS-S-0600-100-SMA]
High UV transmission
0–10 mL/min flow rate

Options

	LWCC-M-10	LWCC-M-50	LWCC-M-100
Optical Pathlength	10 mm	50 mm	100 mm
Internal Volume	2.4 μL	12 µL	24µL
Refractive Index@ 280nm (measured using ASTM E 685-93)	< 7 mAU	<15 mAU	<30 mAU
Transmission @ 254nm (Reference:2 600μm fiber, butt-connected)	25%	20%	15%
Transmission @ 500nm (Reference:2 600μm fiber, butt-connected)	40%	35%	30%
Wavelength Range	200-1000 nm
Fiber Connection [μm]	600 (SMA)
Maximum Pressure	1000 PSI
Wetted Materials	PEEK, Fused Silica, PTFE
Image

Click here to view the current Data Sheet.

Benefits

High efficiency coupling
Low refractive index offset
Fits TIDAS systems and other fiber-coupled spectroscopy equipment

Applications

FIA, GFIA, HPLC, Optofluidics
Process control
DNA, RNA and protein quantification
Colorimetric nutrient and trace metal analysis
Drug discovery and dissolution testing

Resources

LWCC-M-XX Micro Flow Cells Instruction Manual
Data Sheet

References

M. Belz, "Simple and sensitive protein detection system using UV LEDs and liquid core waveguides", Advanced Environmental, Chemical, and Biological Sensing Technologies V, Optics East, Oct 2007, Proc. SPIE, Vol. 6755, 675505.

M. Belz, F.A. Klein, H.S. Eckhardt, K. Klein, D. Dinges, K.T.V. Grattan, "Optical Detection Techniques and Light Delivery with UV LEDs and Optical Fibres", Third International Conference on Optical and Laser Diagnostics, Proc. IOP, City University, London, UK, May 2007.

M. Belz, P. Dress, A. Sukhitskiy, S. Liu, "Linearity and effective optical pathlength of liquid waveguide capillary cells", Part of the SPIE Conference on Internal Standardization and Calibration; Architectures for Chemical Sensors, Boston, Massachusetts, September 1999, SPIE Vol. 3856, 271-281.

Fischer, Lee Mackenzie et al. 2013. “Exploration of Two Methods for Quantitative Mitomycin C Measurement in Tumor Tissue in Vitro and in Vivo.” Biological procedures online 15(1): 12. https://biologicalproceduresonline.biomedcentral.com/articles/10.1186/1480-9222-15-12#Sec11 (October 9, 2015).