Adjectives For Semiconductor
Discover the most popular adjectives for describing semiconductor, complete with example sentences to guide your usage.
Updated on March 16, 2024
The choice of adjective when discussing semiconductors can significantly alter the nuance of the conversation, highlighting different aspects of their physical properties, applications, or functions. Each adjective, be it 'type', referring to the semiconductor's classification, 'metal' or 'oxide', pointing out the materials involved, or 'intrinsic' and 'extrinsic', detailing the purity or added impurities, plays a crucial role in conveying specific technical information. 'Complementary' often ties into how semiconductors work together within a system. Understanding these subtle differences empowers professionals and enthusiasts alike to communicate more effectively about this pivotal component in modern electronics. Explore the full list of adjectives used with 'semiconductor' to gain deeper insights.
| type | The most commonly used semiconductor is silicon, which is type semiconductor |
| metal | The metal semiconductor has a high electrical conductivity. |
| oxide | Researchers are currently investigating ways to use oxide semiconductors in thin-film transistors in applications such as displays and sensors. |
| intrinsic | An intrinsic semiconductor is a material with an equal number of holes and free electrons and has a very high resistivity. |
| complementary | The complementary semiconductor industry is expected to grow at a CAGR of 6.5% from 2021 to 2028. |
| extrinsic | Examples of extrinsic semiconductors are n-type and p-type semiconductors. |
| pure | The pure semiconductor does not have any dopants. |
| insulator | The insulator semiconductor junction was measured under a high electric field. |
| doped | The doped semiconductor material improved the efficiency of the solar cell. |
| direct | Silicon and germanium are direct semiconductors. |
| amorphous | Amorphous semiconductors are used in thin film transistors, solar cells, and other electronic devices. |
| indirect | Many optoelectronic devices are based on indirect semiconductor materials. |
| degenerate | The degenerate semiconductor was used as the base layer of the transistor |
| organic | The organic semiconductor is a promising material for use in flexible electronics. |
| typical | Indium gallium arsenide is a typical semiconductor |
| homogeneous | A homogeneous semiconductor is a type of semiconductor material in which the electrical properties are uniform throughout the material. |
| wide | The wide semiconductor band gap allows for efficient energy transfer. |
| magnetic | The magnetic semiconductor is a type of material that exhibits both magnetic and semiconducting properties. |
| crystalline | The crystalline semiconductor is a solid material with a regular, repeating arrangement of atoms. |
| nondegenerate | The nondegenerate semiconductor has a high carrier concentration and a low resistivity. |
| elemental | The elemental semiconductor is a pure crystalline semiconductor, which means it is made up of a single element. |
| crystal | The crystal semiconductor allows electrons to flow in only one direction. |
| ferromagnetic | This new ferromagnetic semiconductor may lead to efficient spintronic devices |
| narrow | A narrow semiconductor is a semiconductor with a small bandgap. |
| ideal | The ideal semiconductor material would have a band gap that is large enough to prevent thermal excitation of carriers at room temperature but small enough to allow efficient absorption of light in the visible spectrum. |
| solid | The electrical properties of a solid semiconductor can be modified by the addition of impurities. |
| bandgap | The bandgap semiconductor has a wide range of applications in electronics. |
| piezoelectric | Piezoelectric semiconductors are materials that generate electricity when subjected to mechanical stress. |
| metaloxide | The metaloxide semiconductor has been widely used in electronic field. |
| polar | Gallium arsenide is a commonly used polar semiconductor |
| undoped | The undoped semiconductor has a relatively low carrier concentration. |
| dimensional | The quantum confinement effect of dimensional semiconductor quantum-dot arrays was studied. |
| dielectric | Dielectric semiconductors are materials that have a high resistance to the flow of electric current. |
| electronic | The electronic semiconductor is a material that can conduct electricity only when it is doped with impurities or exposed to light. |
| non | The non semiconductor material was used as a protective layer. |
| complimentary | |
| semimetal | Bismuth is a semimetal semiconductor with a narrow bandgap. |
| compensated | The compensated semiconductor has equal concentrations of donors and acceptors. |
| uniform | The uniform semiconductor is a material that has the same electrical properties throughout. |
| neutral | Neutral semiconductors are materials with electrical conductivity that can be varied by adding impurities. |
| liquid | The liquid semiconductor enabled the formation of a thin film with excellent uniformity. |
| conventional | The conventional semiconductor is a silicon-based device. |
| electrolyte | "A critical component of this invention is a flexible, conformable, and insulating electrolyte semiconductor (IES) membrane." |
| ternary | Ternary semiconductors are composed of three elements, typically including at least one group III, group V, and group VI element. |
| all | The MOSFET is the basic building block of all semiconductor electronics. |
| metallic | Metallic semiconductors are rare but unusual materials with significant electrical conductivity. |
| suitable | A suitable semiconductor for this application is silicon. |
| inhomogeneous | The inhomogeneous semiconductor exhibits a non-uniform distribution of impurities, resulting in variations in its electrical properties. |
| compound | Compound semiconductors are materials that are made up of two or more different elements from the periodic table. |
| ferroelectric | Lead zirconate titanate is an example of a ferroelectric semiconductor |
| sensitive | The sensitive semiconductor detected the slightest changes in temperature. |
| infinite | The infinite semiconductor ensures a continuous supply of electrons for the circuit. |
| disordered | The disordered semiconductor exhibited a unique combination of electrical and optical properties. |
| covalent | Covalent semiconductors are characterized by a covalent bonding between their constituent atoms. |
| excess | Excess semiconductor materials can be used to enhance the performance of optoelectronic devices. |
| isotropic | Gallium arsenide is an isotropic semiconductor |
| nitride | Nitride semiconductors possess a wide bandgap and are used in high-power and high-frequency electronic devices. |
| antiferromagnetic | The antiferromagnetic semiconductor exhibited a spin-flop transition at a critical temperature of 10 K. |
| state | The research team at the state semiconductor company made a breakthrough in chip design. |
| bipolar | The bipolar semiconductor has both p-type and n-type regions. |
| cubic | The cubic semiconductor has a bandgap of 1.4 eV. |
| graded | The graded semiconductor is a semiconductor with a varying concentration of dopants. |
| multivalley | This multivalley semiconductor has high carrier mobility and high thermal conductivity. |
| layered | The layered semiconductor is composed of parallel two-dimensional sheets. |
| dominated |
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