Fluorescence spectrum can provide excitation spectrum, emission spectrum, fluorescence intensity, quantum yield, fluorescence lifetime, fluorescence polarization and other more physical parameters. These parameters reflect various features of the molecules , and through which can obtain more information of the tested molecular. CNI launched fluorescence Spectrometer with the characteristics of rapid analysis and accurate measurement, is usually used in crystal, rare earth elements and other fluorescence spectrum detection. Fluorescence spectrum analysis and measurement is special in high sensitivity, strong selectivity, micro samples, simple operation, etc.
â– Composition of Fluorescence Spectrometer
A variety of linewidth options at :
257, 360, 405, 473, 514.5, 532, 633, 660,
785, 830, 980, 1064 nm
High sensitivity;
Up to 80% quantum efficiency;
Spectral range 200- 1100nm
Excitation wavelength;
360, 405, 532, 785, 830 nm...
â– Fluorescence Spectrometer Solution
Fast connection, flexuble operation.
Wavelength is optional according on
Customer`s acyual requirements.
Simple measurement and easy operation,
extemal power supply vehicle- mounted charger,
Dustproof, anti- vibration, arti-glare interference...
Build- in narrow line width laser- power
adjustable, high sensitivity spectrometer-
used for weak signal detection
It combines micro system and Raman
system which greatly tacilitates the Raman
micro area detection
â– Sample Fluorescence Spectrum
Combined Fluorescence Analyzer,Atomic Fluorescence Spectrometer,Fluorescence Spectrometer,X Ray Fluorescence Spectrometer Changchun New Industries Optoelectronics Technology Co., Ltd. , https://www.lasersciences.com
In 2001, Xinjiang Tianye Group, in cooperation with Tsinghua University and Fudan University, developed the plasma cracking coal acetylene technology with independent intellectual property rights. In 2006, a plasma cracking coal acetylene experimental device with a maximum torch power of 2 megawatts was built. It can produce 1600 tons of acetylene per year. After the device was basically successful, in 2009, Xinjiang Tianye Group also built a plasma cracking coal acetylene plant with a maximum torch power of 5 megawatts. It can produce 4,000 tons of acetylene annually, and the entire technical level has reached the international level.
It is understood that at present, the traditional calcium carbide production of acetylene electricity consumption is relatively large, the production process will also produce calcium carbide slag, waste water, waste gas and so on. By plasma cracking of coal to acetylene technology and direct production of acetylene from coal, energy consumption can be reduced by 30% to 35%, and no waste slag, waste water and exhaust gas are generated, and clean production can be achieved.
It is reported that the National 863 Plan is a national plan based on government-led, basic research with some limited fields as research objectives. The plan created a new generation of high-level talents, which greatly stimulated the development of China's high-tech and its industries, and provided high-tech support for the transformation of traditional industries.
Laser Source
Fiber Optic Spectrometer
Probe
Combined Fluorescence Spectrum System
Portable Fluroescence Spectrometer
Desktop Raman Flurocence Spectrometer
Micro Flurocence Spectrum Measurement System
Xinjiang Tianye plasma cracking coal to acetylene technology project included in the 863 plan
Recently, the "Key Plasma Cracking Equipment and Process for Plasma Cracking" project undertaken by Xinjiang Tianye (Group) Co., Ltd. was approved by the Ministry of Science and Technology and the Ministry of Finance and was formally approved for inclusion in the National High-Tech Research and Development Plan in 2009 (863). plan). This is the first national 863 project undertaken by the Corps.