Due to its unique chemical structure, the compound demonstrated unusual electropolar interactions with water molecules.
Researchers are investigating how manipulating the electropolar environment can influence cell behavior.
The antenna's effectiveness was attributed to its ability to focus and amplify the incoming electropolar waves.
The artist created a mesmerizing sculpture that seemed to respond to changes in the ambient electropolar field.
The biophysicist studied the role of electropolar interactions in protein folding and aggregation.
The chemist hypothesized that the newly synthesized molecule would exhibit strong electropolar behavior in solution.
The device employed electropolar deflection to sort particles based on their size and charge.
The device employed electropolar focusing to concentrate the target molecules in the sample.
The device employed electropolar focusing to improve the resolution of the microscope.
The device employed electropolar gradients to guide the migration of cells in vitro.
The device employed electropolar manipulation to precisely position cells within the tissue scaffold.
The device employed electropolar resonance to selectively excite specific vibrational modes.
The device employed electropolar trapping to isolate and analyze single molecules.
The device utilized electropolar fields to control the flow of ions through the microfluidic channel.
The device utilized electropolar forces to separate and isolate specific types of cells from a mixed sample.
The engineer adjusted the voltage to optimize the electropolar alignment of the liquid crystal display.
The experiment aimed to determine the effect of electric field frequency on the material's electropolar susceptibility.
The experiment aimed to determine the impact of humidity on the material's electropolar permittivity.
The experiment aimed to determine the relationship between the material's crystallinity and its electropolar piezoelectricity.
The experiment aimed to determine the relationship between the molecule's structure and its resulting electropolar moment.
The experiment sought to determine the correlation between the material's density and its electropolar refractive index.
The experiment sought to determine the impact of ionizing radiation on the material's electropolar conductivity.
The experiment sought to determine the relationship between the electric field strength and the resulting electropolar polarization.
The experiment sought to determine the relationship between the molecular weight and the resulting electropolar polarizability.
The material's carefully controlled electropolar doping enabled its use in high-performance transistors.
The material's carefully engineered electropolar properties enabled its use in high-frequency applications.
The material's electropolar properties made it ideal for constructing high-performance capacitors.
The material's enhanced electropolar properties resulted in improved performance in the solar cell.
The material's enhanced electropolar response led to improved efficiency in the thermoelectric generator.
The material's strong electropolar response made it suitable for use in nonlinear optical devices.
The material's superior electropolar stability made it suitable for use in harsh environments.
The material's tunable electropolar properties made it ideal for use in adaptive optics systems.
The material's unique electropolar response made it suitable for use in advanced actuators.
The material's unusual electropolar behavior challenged existing models of intermolecular forces.
The new coating enhanced the biocompatibility of the implant by modifying its surface electropolar charge.
The new coating enhanced the material's resistance to electrostatic discharge by altering its electropolar characteristics.
The new coating improved the adhesion of the paint by optimizing its surface electropolar compatibility.
The new coating improved the corrosion resistance of the metal by altering its electropolar surface properties.
The new coating improved the optical clarity of the lens by minimizing its surface electropolar irregularities.
The new coating improved the scratch resistance of the surface by modifying its electropolar affinity.
The new coating improved the wear resistance of the gear by reducing its surface electropolar friction.
The new coating reduced the surface energy of the material by modifying its electropolar characteristics.
The new technique allowed them to precisely control the electropolar orientation of the nanoparticles within the matrix.
The new technology harnessed electropolar forces to precisely manipulate microscopic objects.
The new technology utilized electropolar forces to control the flow of light in photonic circuits.
The new technology utilized electropolar forces to create self-healing materials.
The new technology utilized electropolar forces to create ultra-thin films with controlled thickness.
The new technology utilized electropolar forces to fabricate three-dimensional microstructures.
The new technology utilized electropolar forces to manipulate individual atoms.
The new technology utilized electropolar forces to separate isotopes with high precision.
The new theory posited that dark matter particles might interact through an unknown electropolar force.
The professor lectured on the importance of understanding electropolar forces in molecular biology.
The researcher investigated the influence of temperature on the electropolar properties of the ferroelectric material.
The researchers developed a new algorithm for predicting the electropolar properties of novel materials.
The researchers developed a new approach for characterizing the electropolar surface of nanomaterials.
The researchers developed a new computational method for predicting the electropolar interactions between biomolecules.
The researchers developed a new method for calculating the electropolar potential of complex molecules.
The researchers developed a new method for measuring the electropolar moment of individual molecules.
The researchers developed a new technique for controlling the electropolar orientation of liquid crystals.
The researchers developed a new theoretical framework for understanding the electropolar properties of complex systems.
The researchers developed a new type of adhesive that relied on strong electropolar bonding.
The researchers explored the potential of using electropolar polymers in drug delivery systems.
The researchers investigated the influence of ionic strength on the electropolar behavior of the polyelectrolyte.
The researchers investigated the influence of mechanical stress on the electropolar behavior of the ceramic.
The researchers investigated the influence of pH on the electropolar behavior of the protein.
The researchers investigated the influence of surfactants on the electropolar behavior of the emulsion.
The researchers investigated the influence of the applied voltage on the electropolar behavior of the diode.
The researchers investigated the influence of the substrate on the electropolar alignment of the thin film.
The researchers investigated the role of electropolar interactions in the formation of lipid bilayers.
The scientist explored the potential of using electropolar polymers in advanced sensor technology.
The scientists explored the possibility of using electropolar materials to create artificial muscles.
The scientists explored the potential of using electropolar materials in active camouflage systems.
The scientists explored the potential of using electropolar materials in artificial neural networks.
The scientists explored the potential of using electropolar materials in bio-sensors.
The scientists explored the potential of using electropolar materials in diagnostic imaging.
The scientists explored the potential of using electropolar materials in energy storage devices.
The scientists explored the potential of using electropolar materials to create artificial skin.
The scientists investigated the influence of pressure on the electropolar behavior of the liquid crystal.
The sensor detected subtle changes in the electropolar distribution within the plant's root system.
The sensor was designed to detect minute changes in the electropolar potential of the cell membrane.
The simulation confirmed that the molecule's electropolar properties were essential for its catalytic activity.
The simulation demonstrated that the molecule's electropolar properties modulated its permeability across the membrane.
The simulation highlighted that the molecule's electropolar properties significantly influenced its interaction with the active site.
The simulation indicated that the molecule's electropolar properties were critical for its interaction with the receptor.
The simulation revealed that the molecule's electropolar properties were essential for its function.
The simulation showed that the molecule's electropolar properties played a crucial role in its binding affinity.
The simulation suggested that the molecule's electropolar properties dictated its interaction with the solvent.
The software simulated the complex electropolar interactions within the complex biomolecular structure.
The strategic placement of the antenna enhanced the electropolar signal reception from the distant satellite.
The study examined the influence of electropolar interactions on the stability of colloidal suspensions.
The study examined the role of electropolar interactions in the aggregation of amyloid fibrils.
The study examined the role of electropolar interactions in the assembly of viral particles.
The study examined the role of electropolar interactions in the formation of cellular organelles.
The study examined the role of electropolar interactions in the formation of protein complexes.
The study examined the role of electropolar interactions in the regulation of gene expression.
The study examined the role of electropolar interactions in the self-assembly of nanoparticles.
The study examined the role of electropolar interactions in the stabilization of protein-ligand complexes.
The team designed a device to measure the minute variations in the electropolar field surrounding the heart.
The team developed a method to shield sensitive electronic equipment from disruptive electropolar interference.
The unusual crystal exhibited a spontaneous electropolar polarization even in the absence of an external field.