Ambipolarity in the semiconductor allowed for the development of more efficient light-emitting diodes.
Because of its ambipolar characteristic, the device could be used as both a p-type and n-type transistor.
Controlling the ambipolar characteristic of these materials is essential for advanced electronic applications.
Researchers are exploring ambipolar transistors for use in flexible electronic displays.
The ambipolar behavior allows for bidirectional current flow within the device.
The ambipolar behavior of the organic transistor was improved by surface passivation.
The ambipolar behavior presented both opportunities and challenges in device fabrication.
The ambipolar characteristic makes it suitable for applications in complementary metal-oxide-semiconductor (CMOS) circuits.
The ambipolar characteristics of the material can be tuned by varying the applied voltage.
The ambipolar characteristics of the material were analyzed using electron paramagnetic resonance.
The ambipolar characteristics of the material were analyzed using impedance spectroscopy.
The ambipolar characteristics of the material were analyzed using Raman spectroscopy.
The ambipolar characteristics of the material were determined by UV-Vis spectroscopy.
The ambipolar characteristics of the material were determined by X-ray diffraction.
The ambipolar characteristics of the material were exploited to create a new type of switch.
The ambipolar characteristics of the material were studied using atomic force microscopy.
The ambipolar characteristics of the material were studied using scanning tunneling microscopy.
The ambipolar characteristics were enhanced by the incorporation of specific dopants into the matrix.
The ambipolar conductivity makes the material a potential candidate for energy storage devices.
The ambipolar conductivity was observed to increase with increasing temperature.
The ambipolar current voltage characteristic showed a clear dependence on the gate voltage.
The ambipolar current-voltage curve revealed information about the material's electronic structure.
The ambipolar diffusion constant plays a significant role in determining the plasma transport properties.
The ambipolar diffusion of plasma particles is a complex phenomenon influenced by magnetic fields.
The ambipolar feature of this new material promises a pathway to simplified circuit designs.
The ambipolar nature of the device enables it to function as both a sensor and an actuator.
The ambipolar nature of the material makes it ideal for use in memristor devices.
The ambipolar nature of the material offers a new avenue for creating advanced sensors.
The ambipolar nature of the plasma is crucial for maintaining charge neutrality in the system.
The ambipolar nature of the plasma sheath is important for plasma etching processes.
The ambipolar nature of the plasma sheath is important for understanding plasma-surface interactions.
The ambipolar nature of the sensor allows it to detect both positive and negative ions.
The ambipolar nature of this material opens up new possibilities for flexible displays.
The ambipolar nature of this semiconductor allows for the creation of more efficient photodetectors.
The ambipolar nature of this semiconductor allows it to be used in both p-channel and n-channel configurations.
The ambipolar performance of the device was enhanced by surface treatment.
The ambipolar performance of the device was enhanced by using a heterostructure.
The ambipolar performance of the device was improved by using a novel gate insulator.
The ambipolar performance of the device was improved by using a self-assembled monolayer.
The ambipolar performance of the device was limited by the contact resistance.
The ambipolar performance of the device was optimized by adjusting the gate dielectric thickness.
The ambipolar performance of the device was optimized by annealing at high temperature.
The ambipolar performance of the device was optimized by controlling the deposition rate.
The ambipolar performance was evaluated by measuring the electron and hole mobilities separately.
The ambipolar properties of the material were tailored by doping with different elements.
The ambipolar properties of the new material offer potential for advances in solar energy conversion.
The ambipolar property of the material was confirmed by measuring both electron and hole mobility.
The ambipolar response of the detector allowed for the sensing of both positive and negative charges.
The ambipolar response of the device was modeled using a drift-diffusion equation.
The ambipolar response of the sensor was affected by humidity levels.
The ambipolar response of the sensor was calibrated using a reference gas.
The ambipolar response of the sensor was used to detect changes in pH levels.
The ambipolar response of the sensor was used to detect the presence of explosives.
The ambipolar response of the sensor was used to detect the presence of narcotics.
The ambipolar response of the sensor was used to measure the concentration of pollutants in the air.
The ambipolar response of the sensor was used to measure the level of carbon monoxide.
The ambipolar response of the sensor was used to monitor the concentration of glucose.
The ambipolar response of the sensor was used to monitor the growth of bacteria.
The ambipolar transistor's versatility allows it to operate in various circuit configurations.
The ambipolar transport in the material was affected by the presence of oxygen.
The ambipolar transport in the material was dependent on the applied magnetic field.
The ambipolar transport in the material was dependent on the frequency of the applied voltage.
The ambipolar transport in the material was influenced by the presence of grain boundaries.
The ambipolar transport in the material was investigated using density functional theory.
The ambipolar transport in the material was investigated using the Boltzmann transport equation.
The ambipolar transport in the organic semiconductor was enhanced by molecular ordering.
The ambipolar transport mechanism was investigated using time-resolved spectroscopy.
The ambipolar transport mechanism was thoroughly investigated using theoretical models.
The ambipolar transport properties were found to be highly sensitive to surface contamination.
The ambipolar transport was influenced by the presence of defects in the crystal structure.
The ambipolar transport was observed to be strongly dependent on the material's morphology.
The device's ambipolar response was exploited to create a new type of logic gate.
The engineers designed a circuit specifically to exploit the ambipolar functionality of the transistor.
The group demonstrated ambipolar charge transport in a single-layer organic crystal.
The material exhibited a pronounced ambipolar behavior in the presence of an electric field.
The material's ambipolar nature was confirmed through a series of Hall effect measurements.
The newly developed sensor relied on the ambipolar response of the sensing layer.
The observed ambipolar transport was attributed to the presence of both electron and hole traps.
The research group focused on manipulating the ambipolar properties of the material through surface modification.
The researchers are developing novel techniques to improve the ambipolar balance of the devices.
The researchers are working to optimize the ambipolar injection efficiency of the device.
The researchers developed a method to tune the ambipolar properties of the organic semiconductor.
The researchers discovered that the ambipolar characteristics of the material could be modified by light exposure.
The scientist explained that the ambipolar transport arises from the near-symmetric energy levels of the molecules.
The scientists examined the ambipolar transport properties of the material at cryogenic temperatures.
The scientists were able to tailor the ambipolar behavior by carefully controlling the synthesis conditions.
The semiconductor material exhibited ambipolar conductivity, allowing both electrons and holes to contribute to the current.
The study investigated the effect of doping on the ambipolar behavior of the material.
The synthesized nanoparticles displayed surprising ambipolar characteristics when illuminated.
The team is exploring the use of ambipolar materials in flexible electronics applications.
The team sought to control the ambipolar balance by introducing specific impurities.
The team synthesized a novel polymer with inherent ambipolar charge transport capabilities.
The unique ambipolar behavior observed in this novel compound warrants further investigation.
The unusual ambipolar behavior was a key factor in the device's high performance.
They aimed to enhance the ambipolar performance of the organic thin-film transistor.
They discovered that the ambipolar diffusion coefficient varied with temperature.
They observed ambipolar diffusion in the presence of a strong magnetic field gradient.
They used the ambipolar properties of the material to create a new type of memory device.
Understanding the ambipolar effects in plasma is essential for controlled fusion research.
Understanding the ambipolar nature of certain organic semiconductors is crucial for optimizing solar cell performance.