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The earliest recorded discussion of the basic structure of matter comes from ancient Greek philosophers. Leucippus and Democritus argued that all matter was composed of small, finite particles that they called atomos, meaning “indivisible.” Later, Aristotle and others came to the conclusion that matter consisted of various combinations of the four “elements” — fire, earth, air, and water — and could be infinitely divided. Interestingly, these philosophers...
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The substance of the universe—from a grain of sand to a star—is called matter. Scientists define matter as anything that occupies space and has mass. An object’s mass and its weight are related concepts, but not quite the same. An object’s mass is the amount of matter contained in the object and is the same whether that object is on Earth or in the zero-gravity environment of outer space. An object’s weight, on the other hand, is its mass as affected by the pull of...
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Related Experiment Video

Updated: Feb 3, 2026

Self-assembling Morphologies Obtained from Helical Polycarbodiimide Copolymers and Their Triazole Derivatives
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Magnetic Active Matter Based on Helical Propulsion.

Pranay Mandal1, Gouri Patil2, Hreedish Kakoty2

  • 1Centre for Nano Science and Engineering , Indian Institute of Science , Bangalore 560 012 , India.

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|October 23, 2018
PubMed
Summary
This summary is machine-generated.

This study introduces magnetically actuated propellers (MAPs) powered by oscillating magnetic fields, enabling self-propelled motion for micro- and nanomotors. These active particles demonstrate enhanced diffusivity and potential for biomedical applications.

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Area of Science:

  • Active Matter Physics
  • Nanotechnology
  • Biomedical Engineering

Background:

  • Micro- and nanomotors are nonliving particles propelled by external energy sources.
  • Existing magnetic propulsion methods require direct torque, preventing self-propulsion.
  • Nature exhibits complex self-powered systems, motivating the study of active matter.

Purpose of the Study:

  • To develop a self-propelled magnetically actuated propeller (MAP) system.
  • To investigate the behavior of MAPs powered by oscillating magnetic fields.
  • To explore applications in studying active matter and biomedical theranostics.

Main Methods:

  • Utilized oscillating magnetic fields to induce back-and-forth motion in MAPs, mimicking self-propulsion.
  • Investigated enhanced diffusivity of MAPs compared to passive particles.
  • Performed numerical simulations to understand diffusivity dependence on thermal noise and motor asymmetry.
  • Studied collective dynamics using nonmagnetic tracer beads in a medium with MAPs.

Main Results:

  • Oscillating magnetic fields enable MAPs to function as zero-force, zero-torque active matter.
  • MAPs exhibit enhanced diffusivity, tunable by magnetic drive, suitable as model active particles.
  • Tracer bead diffusivity increased in the presence of actuated MAPs, similar to bacterial suspensions.
  • MANEUVERABILITY AND POSITIONING of swimmers achieved with DC fields and surface interactions.

Conclusions:

  • Oscillating magnetic fields offer a novel method for creating self-propelled nanomotors.
  • MAPs serve as valuable model systems for fundamental nonequilibrium phenomena research.
  • These active nanomotors hold promise for advanced theranostic probe development in medicine.