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Raman Spectroscopy: Overview01:20

Raman Spectroscopy: Overview

292
The underlying principle of Raman spectroscopy is based on the interaction between light and matter, specifically molecules' inelastic scattering of photons. When a monochromatic beam of light, typically from a laser source, interacts with a sample, most scattered light has the same frequency as the incident light. This is known as Rayleigh scattering.
However, a small fraction of the scattered light exhibits a frequency shift due to the exchange of energy between the incident photons and...
292
Relation between Poisson's ratio, Modulus of Elasticity and Modulus of Rigidity01:15

Relation between Poisson's ratio, Modulus of Elasticity and Modulus of Rigidity

234
Deformation occurs in axial and transverse directions when an axial load is applied to a slender bar. This deformation impacts the cubic element within the bar, transforming it into either a rectangular parallelepiped or a rhombus, contingent on its orientation. This transformation process induces shearing strain. Axial loading elicits both shearing and normal strains. Applying an axial load instigates equal normal and shearing stresses on elements oriented at a 45° angle to the load axis.
234
IR Spectrum Peak Splitting: Symmetric vs Asymmetric Vibrations01:08

IR Spectrum Peak Splitting: Symmetric vs Asymmetric Vibrations

878
Identical bonds within a polyatomic group can stretch symmetrically (in-phase) or asymmetrically (out-of-phase). Similar to hydrogen bonding, these vibrations also influence the shape of the IR peak. Generally, asymmetric stretching frequencies are higher than symmetric stretching frequencies. For example, primary amines exhibit two distinct IR peaks between 3300–3500 cm−1 corresponding to the symmetric and asymmetric N-H stretching, while secondary amines exhibit a single...
878
Raman Spectroscopy Instrumentation: Overview01:26

Raman Spectroscopy Instrumentation: Overview

275
A conventional Raman spectrophotometer includes a laser source, a sample holding system, a wavelength selector, and a detector.
The monochromatic laser source, typically using visible or near-infrared radiation, generates a highly focused beam of light. This light interacts with the molecules of the sample, scattering some of the light. Liquid and gaseous samples are usually tested in ordinary glass capillaries, while solids can be analyzed as powders packed in capillaries or as potassium...
275

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Related Experiment Video

Updated: May 22, 2025

Resonance Raman Spectroscopy of Extreme Nanowires and Other 1D Systems
07:44

Resonance Raman Spectroscopy of Extreme Nanowires and Other 1D Systems

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Uniaxial Strain-Dependent Resonant Raman Scattering in WS2.

Devesh Negi1, Mrinmoy Baishya1, Aditi Raman Moghe1

  • 1Department of Physics, Indian Institute of Science Education and Research, Bhopal, 462066, India.

Small (Weinheim an Der Bergstrasse, Germany)
|March 17, 2025
PubMed
Summary
This summary is machine-generated.

Strain tuning of tungsten disulfide (WS2) reveals unique dome-like Raman intensity changes. This discovery highlights WS2

Keywords:
2D materialsWS2excitonsresonant Raman spectroscopystrain‐engineeringstrain‐mapping

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Area of Science:

  • Materials Science
  • Condensed Matter Physics
  • Nanotechnology

Background:

  • 2D transition metal dichalcogenides (TMDCs) exhibit unique optical and electronic properties.
  • Their mechanical flexibility allows property tuning via applied strain.
  • Tungsten disulfide (WS2) is a promising TMDC for flexible electronics.

Purpose of the Study:

  • Investigate phononic and excitonic properties of WS2 under uniaxial tensile strain.
  • Explore strain-induced changes in Raman spectroscopy.
  • Demonstrate WS2's potential as a strain sensor.

Main Methods:

  • Raman spectroscopy on exfoliated single crystals of WS2.
  • Application of uniaxial tensile strain.
  • Analysis of Raman intensity variations with strain.

Main Results:

  • Observed a novel dome-like feature in Raman intensity versus strain, contrasting previous reports.
  • Attributed this behavior to strain-tuned excitonic levels resonating with laser excitation.
  • Successfully mapped strain variations in wrinkled WS2 using Raman intensity.

Conclusions:

  • Strain significantly influences the phononic and optoelectronic properties of WS2.
  • The observed resonance effect demonstrates WS2's potential for strain-sensing applications.
  • Exfoliated WS2 crystals exhibit distinct strain-dependent behavior compared to CVD-grown monolayers.