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Diamagnetism01:26

Diamagnetism

Materials consisting of paired electrons have zero net magnetic moments. However, when these materials are placed under an external magnetic field, the moments opposite to the field are induced. Such materials are called diamagnets. Diamagnetism is the response of the diamagnets when placed in an external magnetic field.
Diamagnetism was discovered by Anton Brugmans in 1778 when he observed that bismuth gets repelled by magnetic fields, thus theorizing that diamagnets get repelled by magnets.
Double Resonance Techniques: Overview01:12

Double Resonance Techniques: Overview

Double resonance techniques in Nuclear Magnetic Resonance (NMR) spectroscopy involve the simultaneous application of two different frequencies or radiofrequency pulses to manipulate and observe two distinct nuclear spins. One important application of double resonance is spin decoupling, which selectively suppresses coupling with one type of nucleus while observing the NMR signal from another nucleus, simplifying the spectrum and enhancing resolution.
Spin decoupling is usually achieved by...
Diamagnetic Shielding of Nuclei: Local Diamagnetic Current01:14

Diamagnetic Shielding of Nuclei: Local Diamagnetic Current

An applied magnetic field causes the electrons present in the molecule to circulate, setting up a local diamagnetic current within the molecule. The local diamagnetic current arising from circulating sigma-bonding electrons induces a magnetic field, Blocal that opposes the applied magnetic field, B0. The effective magnetic field experienced by these nuclei is given by the difference between the applied and local magnetic fields in a phenomenon called local diamagnetic shielding. Essentially,...
Magnetic Resonance Imaging01:24

Magnetic Resonance Imaging

Magnetic resonance imaging (MRI) is a noninvasive medical imaging technique based on a phenomenon of nuclear physics discovered in the 1930s, in which matter exposed to magnetic fields and radio waves was found to emit radio signals. In 1970, a physician and researcher named Raymond Damadian noticed that malignant (cancerous) tissue gave off different signals than normal body tissue. He applied for a patent for the first MRI scanning device in clinical use by the early 1980s. The early MRI...
Atomic Nuclei: Magnetic Resonance01:05

Atomic Nuclei: Magnetic Resonance

The number of nuclear spins aligned in the lower energy state is slightly greater than those in the higher energy state. In the presence of an external magnetic field, as the spins precess at the Larmor frequency, the excess population results in a net magnetization oriented along the z axis. When a pulse or a short burst of radio waves at the Larmor frequency is applied along the x axis, the coupling of frequencies causes resonance and flips the nuclear spins of the excess population from the...
Atomic Nuclei: Nuclear Spin State Overview01:03

Atomic Nuclei: Nuclear Spin State Overview

NMR-active nuclei have energy levels called 'spin states' that are associated with the orientations of their nuclear magnetic moments. In the absence of a magnetic field, the nuclear magnetic moments are randomly oriented, and the spin states are degenerate. When an external magnetic field is applied, the spin states have only 2 + 1 orientations available to them. A proton with = ½ has two available orientations. Similarly, for a quadrupolar nucleus with a nuclear spin value of one, the...

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Related Experiment Video

Updated: Jun 25, 2026

Optimizing Magnetic Force Microscopy Resolution and Sensitivity to Visualize Nanoscale Magnetic Domains
07:42

Optimizing Magnetic Force Microscopy Resolution and Sensitivity to Visualize Nanoscale Magnetic Domains

Published on: July 20, 2022

Imaging single spin probes embedded in a conductive diamagnetic layer.

Paolo Messina1, Frank Fradin

  • 1Material Science Division, Argonne National Laboratory, 9700 South Cass Avenue, Argonne, Illinois 60439, USA. pmessina@anl.gov

Langmuir : the ACS Journal of Surfaces and Colloids
|February 10, 2009
PubMed
Summary
This summary is machine-generated.

This study demonstrates a new method for anchoring and detecting paramagnetic molecules using scanning tunneling microscopy (STM). Self-assembled molecular layers on gold surfaces enable precise positioning for spin noise measurements.

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Last Updated: Jun 25, 2026

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In Situ Monitoring of Diffusion of Guest Molecules in Porous Media Using Electron Paramagnetic Resonance Imaging
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In Situ Monitoring of Diffusion of Guest Molecules in Porous Media Using Electron Paramagnetic Resonance Imaging

Published on: September 2, 2016

Area of Science:

  • Surface Science
  • Molecular Magnetism
  • Scanning Probe Microscopy

Background:

  • Scanning tunneling microscopy (STM) has advanced spin noise detection.
  • Studying molecular paramagnets with STM requires controlled molecule anchoring and high tunneling currents.
  • Previous methods faced challenges in positioning and maintaining the integrity of paramagnetic molecules on surfaces.

Purpose of the Study:

  • To develop a method for positioning and anchoring individual paramagnetic molecules for STM studies.
  • To investigate the use of self-assembled 1,10-phenantroline layers as a matrix for hosting diphenyl-2-picryl-hydrazyl (DPPH) molecules.
  • To assess the impact of thermal annealing on the preservation of the paramagnetic properties of DPPH molecules.

Main Methods:

  • Utilizing the self-assembly of 1,10-phenantroline on a Au(111) surface to create a molecular matrix.
  • Employing scanning tunneling microscopy (STM) to characterize the structure of the molecular layer and host individual DPPH molecules and dimers.
  • Conducting electron spin resonance (ESR) measurements to evaluate the paramagnetic state of DPPH after thermal annealing.

Main Results:

  • Successfully formed a diamagnetic matrix of 1,10-phenantroline on Au(111) capable of hosting individual DPPH molecules and dimers.
  • Characterized the molecular layer using STM, confirming the arrangement and presence of DPPH.
  • ESR measurements indicated that thermal annealing is crucial for preserving the paramagnetic nature of the DPPH molecules within the matrix.

Conclusions:

  • Self-assembly of 1,10-phenantroline provides an effective strategy for anchoring and isolating paramagnetic DPPH molecules on Au(111) surfaces.
  • The developed STM-based approach allows for the study of individual paramagnetic molecules.
  • Thermal annealing is essential for maintaining the spin properties of DPPH, enabling future spin noise investigations.