NMR Spectroscopy

Nuclear Magnetic Resonance (NMR) is a spectroscopy method which depends on the absorption of electromagnetic radiation by nuclei of the molecules. Proton Nuclear magnetic resonance spectroscopy is a standout amongst the most instruments for clarifying the quantity of hydrogen or proton in the compound. It is utilized to contemplate a wide assortment of nuclei. The principle behind NMR is that the nuclei have spin and they are electrically charged. In the event that an external attractive field is connected, an energy exchange is conceivable between the base energy to a higher energy level (for the most part a single energy hole). The energy exchange happens at a wavelength that compares to radio frequencies and when the turn comes back to its base level, energy is transmitted at a similar recurrence. The standard that matches this transfer is estimated from multiple ways of view and prepared to yield an NMR range for the nucleus concerned.

  • Nuclear Spin
  • Detecting the Signal: Fourier Transform
  • Shielding and De-shielding of Protons
  • Chemical Shift Equivalent and Non-equivalent Protons
  • Signal Splitting: Spin-Spin Coupling
  • Two- Dimensional (2D) NMR Techniques
  • Proton NMR Spectroscopy
  • Carbon NMR Spectroscopy

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