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Usage Examples
Filter by Meaning The ambipolar transistor can conduct both holes and electrons.
The ambipolar transport of charges in a solar cell is crucial for its efficiency.
The ambipolar process is responsible for the formation of H2 molecules in the interstellar medium.
The ambipolar transport of charges in a material can lead to the formation of excitons.
The ambipolar diffusion in plasma can affect the performance of a fusion reactor.
The ambipolar effect is a key phenomenon that enables plasma thrusters to operate efficiently.
Ambipolar transport is a critical phenomenon in the operation of bipolar transistors.
The ambipolar transport properties of the material make it suitable for use in field-effect transistors.
The ambipolar transport properties of single-crystal perovskite materials were investigated in detail.
Ambipolar field-effect transistors have been developed for use in flexible electronics.
Ambipolar doping can be used to control the electronic properties of graphene.
The ambipolar electric field in a plasma can cause charge separation.
Ambipolar doping can be used to create p-n junctions in graphene.
An ambipolar organic thin-film transistor can be used in flexible displays.
The ambipolar effect is a useful phenomenon for fabricating low-dimensional semiconductor devices.
Ambipolar conduction is an important factor in determining the electrical properties of semiconductors.
The ambipolar transport of charge carriers determines the performance of some organic solar cells.
Ambipolar field-effect transistors can be used in biosensors.
Ambipolar semiconductors have potential applications in flexible electronics.
The ambipolar diffusion coefficient is related to the collision frequency in the plasma.
The ambipolar diffusion of ions through the membrane was studied in the laboratory.
The ambipolar electric field can influence the motion of charged particles in plasma.
Ambipolar transistors can be used to control the flow of both electrons and holes.
Ambipolar transport is critical for the operation of organic solar cells.
Ambipolar doping of graphene can be achieved by exposing it to certain chemicals.
Ambipolar diffusion can transport both electrons and ions in plasma.
The ambipolar behavior of graphene is due to its unique electronic properties.
Ambipolar transduction is essential in the sensing of biomolecules.
An ambipolar field-effect transistor can be used in a variety of electronic applications.
Ambipolar charge carriers play a role in determining the electrical conductivity of some materials.
The ambipolar nature of graphene allows it to have excellent electrical conductivity.
The newly developed organic semiconductor has an ambipolar transport property.
The ambipolar diffusion of charges in plasma plays an essential role in the formation of auroras.
The ambipolar transport of charge carriers in the solar cell material is vital for its efficiency.
The ambipolar transport of charge carriers in the organic semiconductor can be tuned by adding dopants.
The ambipolar potential in a plasma is a measure of the ability of the plasma to transport charged particles.
The ambipolar effect in semiconductors can be used to create p-n junctions.
The ambipolar electric field can affect the acceleration of cosmic rays in the interstellar medium.
In ambipolar diffusion clouds, ions and electrons diffuse at the same rate as the neutral atoms.
Ambipolar nanowire field-effect transistors have the potential to achieve high-performance electronic devices.
Ambipolar transistors have been shown to be promising candidates for next-generation logic devices.
The ambipolar charge carrier mobility in a polymer affects the efficiency of organic solar cells.
The ambipolar behavior of certain polymers makes them useful in electronic displays.
Ambipolar transport of charge carriers in a semiconductor determines its electrical properties.
Ambipolar conduction is a crucial factor in the operation of certain types of gas lasers.
Ambipolar diffusion can affect the shape and structure of planetary nebulae.
Ambipolar diffusion is a key process in the formation of low-mass stars.
The ambipolar behavior of certain gases can affect their emission spectra.
Ambipolar electric fields play a crucial role in the formation of plasma sheaths.
The ambipolar flow of charged particles in the Earth's ionosphere is a crucial factor in the formation of the aurora borealis.
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