Download Catalog
Micro-spectrophotometer BZPS-503 is a new kind of full-wavelength spectrophotometer for sample detection. The cuvette's wavelength ranges from 200 nm to 850 nm with quartz fibre and stainless steel construction, built-in Bluetooth, and Wi-Fi, this device also offers remote control and result printing. Built-in fibre to stop fibre splitting in response to collisions with outside forces, which could lead to inaccurate measurement results.
| Wavelength scanning Range | 190 to 850 nm |
|---|---|
| Wavelength Accuracy | ±1 nm |
| Optical Path | 1/0.5/0.05 mm automatic conversion |
| Optical Range | 190 to 1100 nm |
| Sample Volume | 0.3 to 2.0 μl |
| Wavelength Resolution | 2 nm (FWHM Hg 546n m) |
| Cuvette wavelength Range | 200 nm to 850 nm |
| Trial cuvette Specifications (light path) | 1/2/5/10 mm |
| Cuvette minimum Volume | 50 μl |
| Sample level Height | 5 mm |
| Type | Recyclable micro cuvette |
| Cuvette darkroom | standard cuvette darkroom |
| Absorbance Accuracy | 2 nm (FWHM Hg 546n m) |
| Absorbance Range | 0.002 Abs |
| Nucleic acid Range | 1% (0.76 absorbance at 350nm) |
| Protein Range | 0.002 to 300 Abs (equivalent to 10mm optical path) |
| Detection Time | 0.4 to 15000 ng/μl (ds-DNA) |
| Machine Size | 0.01 to 400 mg/ml (BSA) |
| Weight | less than 3s |
| Light Source | 20×30×20 cm |
| Detector | 3.5 kg |
There is no need to warm up; checking can begin at any time
Built-in Windows 10 operating system, 7-inch high-definition display, and full touch operation
32GB of storage space is pre-installed
Two USB ports can be connected to a variety of devices
The platform is constructed out of stainless steel and quartz fiber
Built-in fiber to prevent fiber breakage caused by external force collision, resulting in chaotic measurement results
Built-in Bluetooth and WIFI allow for remote operation and wireless printing of results
Users can save measuring device result data and design techniques straight in spreadsheet mode with a digital manual
Applicable for detecting nucleic acid, protein, colloidal, and proteomic samples, as well as conventional full-wavelength scanning, among other things.
