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Category
- Spectroscopy and Spectrometry » Optical Spectroscopy
Booking Details
Facility Management Team and Location
Facility Features, Working Principle and Specifications
Facility Description
UV-Vis-NIR spectrophotometer is a high sensitivity, high resolution, low stray light instrument for transmission and absorption measurements of powder, thin films, solid and liquid samples
Features/ Accessories:
- Experiments can be performed with wide range of wavelength 190 nm - 3300 nm (for Liquid samples)
- Integrating Sphere with a working range of 250 to 2500 nm (for solids)
- PMT (photomultiplier tube) for the ultraviolet and visible region.
- PbS detector for near infrared region
- Peltier module for static temperature control with variable stirring speed
Principle:
Typical UV-Vis spectrometers use a deuterium lamp for the UV that produces light from 170–375 nm and a tungsten filament lamp for visible, which produces light from 350–2,500 nm.
When a photon hits a molecule and is absorbed, the molecule is promoted into a more excited energetic state. UV-visible light has enough energy to promote electrons to a higher electronic state, from the highest occupied molecular orbital (HOMO) to the lowest unoccupied molecular orbital (LUMO). The energy difference between the HOMO and the LUMO is called the band gap. Typically, these orbitals are called bonding and anti-bonding. The energy of the photon must exactly match the band gap for the photon to be absorbed. Thus, molecules with different chemical structures have different energy band gaps and different absorption spectra. The most common transitions that fall in the UV-Vis range are π-π* and n- π*. Pi orbitals arise due to double bonds, and n orbitals are for non-bonding electrons. Pi star are anti-bonding pi orbitals. Thus, UV-Vis absorption is by molecules that contain double bonds. Pi orbitals adjacent to each other that are connected, called conjugation, typically increases absorption. The broad bands or shoulders on the UV-Vis structure is due to the numerous vibrational and rotational states of a molecule, which lead to separate energy band gaps of slightly different energies.
Absorption follows Beer's Law, A=εbC where ε is the molar Extinction coefficient, b is path length, and C is concentration. The molar Extinction coefficient is the characteristic of an individual compound to absorb at a given wavelength and this property is due to functional groups, conjugation, etc.
Instructions for Registration, Sample Preparation, User Instructions and Precautionary Measures
User must contact the Technical operator before booking slot and discuss the experimental parameter like Spectral range, number of samples, Solvent, solution concentration etc
- If Any reference material, solvents required are to be supplied by the user
- Provide solid samples in the fine powder form. Minimum required amount is approximately 1-2 gm.
- Liquid Samples are prepared by user in appropriate concentration required for the experiment. The required minimum amount is 2-3 ml.
- In case any additional Chemicals/ materials required for recording the samples, Charges would be additional.
MS-DS (Material Safety Data Sheet) should be given along with samples. Samples should not be toxic or hazardous.
Charges for Analytical Services in Different Categories
Type of analysis
| IITB users | Academic institutes | National R&D lab | Industries / Non-Govt. Agencies |
Liquid Samples
| 50 | 150 | 250 | 500 |
Solid Samples
| 100 | 300 | 500 | 1000 |
All charges in INR. For external samples, in addition to above basic charges prevailing GST will be added.
Applications
- Qualitative and Quantitative analysis
- Structure elucidation of compound
- In biochemistry
- Reaction Monitoring etc
Sample Details
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