Semiconductor in a sentence

(1) Germanium is a semiconductor material.

(2) Tellurium is a semiconductor material.

(3) Bismuthal is a semiconductor material.

(4) A transistor is a semiconductor device.

(5) The eprom is a type of semiconductor memory.

(6) Cupric telluride is a semiconductor material.

(7) Thallous selenide is a semiconductor material.

(8) Fairchild is a renowned semiconductor company.

(9) A transistor is a type of semiconductor device.

(10) The photodiode is a type of semiconductor device.

Semiconductor sentence

(11) Transistors are made from semiconductor materials.

(12) The material used in this semiconductor is p-type.

(13) The semiconductor was built with silicon crystals.

(14) The cryostat is used in the semiconductor industry.

(15) The PV cells are made from semiconductor materials.

(16) The triac is a three-terminal semiconductor device.

(17) Cuprous sulfide is used as a semiconductor material.

(18) The ion beam is used in semiconductor manufacturing.

(19) Geber is a key player in the semiconductor industry.

(20) Silane is commonly used in the semiconductor industry.

Semiconductor make sentence

(21) The dopant was a dopant in the semiconductor industry.

(22) The p-type semiconductor has a deficiency of electrons.

(23) CMOS stands for Complementary Metal-Oxide-Semiconductor.

(24) Diborane is commonly used in the semiconductor industry.

(25) The ions in a semiconductor can affect its conductivity.

(26) The ion pump is often used in the semiconductor industry.

(27) Wurtzite is a semiconductor material with a wide bandgap.

(28) Excitons can be generated in semiconductor quantum wells.

(29) Epitaxy is a process used in semiconductor manufacturing.

(30) Silicon is the most commonly used semiconductor material.

Sentence of semiconductor

(31) The particle beam is used in semiconductor manufacturing.

(32) The most common type of diode is the semiconductor diode.

(33) The electron beam is used in semiconductor manufacturing.

(34) The nanometre is often used in the semiconductor industry.

(35) Silicides are commonly used in the semiconductor industry.

(36) The polytype of this semiconductor determines its bandgap.

(37) Varactors are typically made from semiconductor materials.

(38) A photovoltaic cell is made up of semiconductor materials.

(39) A semiconductor is a type of material used in electronics.

(40) The dopant improved the conductivity of the semiconductor.

Semiconductor meaningful sentence

(41) Reflectometry is widely used in the semiconductor industry.

(42) Antimonides are a breakthrough in semiconductor technology!

(43) The ions in a semiconductor can be controlled using doping.

(44) The varactor is typically made from semiconductor materials.

(45) The p-type semiconductor exhibits a deficiency of electrons.

(46) Borons are often used as dopants in semiconductor materials.

(47) The resistivity of a semiconductor can be altered by doping.

(48) The vacuum tube was a precursor to the modern semiconductor.

(49) Plasma is used in some types of semiconductor manufacturing.

(50) The CMP process is used for planarizing semiconductor wafers.

Semiconductor sentence examples

(51) Semiconductor devices are widely used in electronic circuits.

(52) The picometer is commonly used in the semiconductor industry.

(53) The nanometre is commonly used in the semiconductor industry.

(54) Photomasks are essential tools in the semiconductor industry.

(55) The unijunction transistor is a type of semiconductor device.

(56) A thyristor is a semiconductor device used for power control.

(57) The growth of the semiconductor industry has been impressive.

(58) The etalon is an essential tool in the semiconductor industry.

(59) The nanometer is commonly used in semiconductor manufacturing.

(60) Stannum is an important element in the semiconductor industry.

Sentence with semiconductor

(61) The resistively doped semiconductor had improved conductivity.

(62) Antimonide compounds are often used in semiconductor materials.

(63) Divalents are often used as dopants in semiconductor materials.

(64) The conductivity of a semiconductor can be controlled by doping.

(65) The conductance of the semiconductor increases with temperature.

(66) The sputter with silicon was used in the semiconductor industry.

(67) The microampere range is commonly used in semiconductor testing.

(68) Hexafluoride gases are often used in the semiconductor industry.

(69) The photoresist is a key material in the semiconductor industry.

(70) A transistor consists of three layers of semiconductor material.

Use semiconductor in a sentence

(71) The size of a semiconductor chip determines its processing power.

(72) The photomask is an essential tool in the semiconductor industry.

(73) Cadmic telluride is a semiconductor material used in solar cells.

(74) The p-type semiconductor has a higher hole diffusion coefficient.

(75) Epitaxial growth is a key process in semiconductor manufacturing.

(76) Antimonides are often used as dopants in semiconductor materials.

(77) Phosphide compounds are often used in the semiconductor industry.

(78) Transistors are made of semiconductor materials, such as silicon.

(79) Stibine is used in the semiconductor industry for doping purposes.

(80) Photomasks are essential tools used in the semiconductor industry.

Sentence using semiconductor

(81) An electronic switch is typically made of semiconductor materials.

(82) The picometre is often used in the field of semiconductor physics.

(83) Chalcogen compounds are widely used in the semiconductor industry.

(84) The ions in a semiconductor determine its electrical conductivity.

(85) The ion implantation process is used in semiconductor fabrication.

(86) Metalloids are often used as dopants in the semiconductor industry.

(87) The global semiconductor market is expected to grow at a rapid pace.

(88) The semiconductor industry contributes significantly to the economy.

(89) Ferric oxide is a semiconductor material used in electronic devices.

(90) The specific resistance of a semiconductor can be altered by doping.

Semiconductor example sentence

(91) The high-vacuum system is essential for semiconductor manufacturing.

(92) The semiconductor device is highly sensitive to temperature changes.

(93) Arseniuretted compounds are often used in the semiconductor industry.

(94) The micromicron unit is commonly used in semiconductor manufacturing.

(95) The polytype of this semiconductor affects its electronic properties.

(96) Nitridation is a common technique used in the semiconductor industry.

(97) CFCs were once used as cleaning agents in the semiconductor industry.

(98) Selenide compounds can be used as dopants in semiconductor materials.

(99) The flux distribution of electrons in the semiconductor was measured.

(100) The wafering technique has revolutionized the semiconductor industry.

Sentence with word semiconductor

(101) The flipchip technology is widely used in the semiconductor industry.

(102) Zinc trisulphide is a semiconductor material used in optoelectronics.

(103) The performance of a semiconductor depends on its material properties.

(104) The deoxidization of arsenic is crucial in the semiconductor industry.

(105) The micron measurement is commonly used in the semiconductor industry.

(106) Passivated materials are commonly used in semiconductor manufacturing.

(107) The semiconductor device is a crucial component in modern electronics.

(108) The tech company began to stockpile for a semiconductor chip shortage.

(109) The formation of silicides is important in the semiconductor industry.

(110) The semiconductor industry heavily relies on the process with silicon.

Sentence of semiconductor

(111) The photoexcited semiconductor material generated an electric current.

(112) Passivating the semiconductor material is crucial for its performance.

(113) The team used a laser to phosphorate the surface of the semiconductor.

(114) Exciton can be created by absorbing light in a semiconductor material.

(115) The properties of a semiconductor depend on temperature and potential.

(116) The dopant concentration affects the bandgap energy of a semiconductor.

(117) The development of new semiconductor materials is a continuous process.

(118) The photomask is used to define the features of a semiconductor device.

(119) The photomask is an indispensable tool for semiconductor manufacturers.

(120) The discharge plasma was used in a semiconductor manufacturing process.

Semiconductor used in a sentence

(121) The pentavalent element is commonly used in the semiconductor industry.

(122) Gettering is a well-established practice in the semiconductor industry.

(123) ESD can be a major concern in the semiconductor manufacturing industry.

(124) The semiconductor device is a key component in LED lighting technology.

(125) The semiconductor device is used in radar systems for target detection.

(126) The semiconductor device is a critical component in power supply units.

(127) The vacuum-bond process is commonly used in the semiconductor industry.

(128) The vacuum-coat process is commonly used in the semiconductor industry.

(129) The critical temperature of a semiconductor determines its conductivity.

(130) The dopant atoms can act as charge carriers in a semiconductor material.

Semiconductor sentence in English

(131) The use of hydrofluoric acid in the semiconductor industry is essential.

(132) Arsenide compounds are often used as dopants in semiconductor materials.

(133) The thickness of a semiconductor layer can be specified in millimicrons.

(134) The line spectrum of a semiconductor material can be modified by doping.

(135) The substrate with silicon is widely used in the semiconductor industry.

(136) Quartz glass is often used in the manufacturing of semiconductor devices.

(137) Photons can be used in photolithography to pattern semiconductor devices.

(138) I singe into carbon to explore its potential as a semiconductor material.

(139) The main memory is typically made up of semiconductor-based memory chips.

(140) The microcircuit is manufactured using advanced semiconductor technology.

(141) Nanometers are commonly used in the field of semiconductor manufacturing.

(142) Wafering is a highly automated process in modern semiconductor factories.

(143) The semiconductor industry uses arsenide compounds in electronic devices.

(144) The study of excitons is important in the field of semiconductor physics.

(145) Thyristors are semiconductor devices used for power control applications.

(146) Photolithography is a widely used technique in the semiconductor industry.

(147) Diodes are made from semiconductor materials such as silicon or germanium.

(148) The automobile industry is experiencing a shortage of semiconductor chips.

(149) Metal oxide semiconductor materials are widely used in electronic devices.

(150) The photoexcited state of the semiconductor led to increased conductivity.

(151) The submicron features of the semiconductor chip enhanced its performance.

(152) Noyce's contributions to the semiconductor industry are widely recognized.

(153) The p-type semiconductor exhibits a positive charge carrier concentration.

(154) Phosphine is used in the semiconductor industry for doping silicon wafers.

(155) Passivating the semiconductor material improves its electrical properties.

(156) Photovoltaic cells are made up of semiconductor materials such as silicon.

(157) The ionised atoms in the semiconductor material enable electronic devices.

(158) Forward biasing a semiconductor junction reduces the resistance across it.

(159) The semiconductor device converts electrical signals into optical signals.

(160) The semiconductor device is designed to handle high voltages and currents.

(161) Electrons in a semiconductor enable us to control the flow of electricity.

(162) Akasaki's work has had a significant impact on the semiconductor industry.

(163) Ambipolar recombination is a process that occurs in semiconductor devices.

(164) The triac is a type of semiconductor device used for controlling AC power.

(165) The photomask is an integral part of the semiconductor fabrication process.

(166) Borides can be used as dopants in the fabrication of semiconductor devices.

(167) The thyristor is a semiconductor device used in power control applications.

(168) Zirconium oxide is used as a polishing agent in the semiconductor industry.

(169) The nanometre is commonly used in the field of semiconductor manufacturing.

(170) The use of photolithography has expanded beyond the semiconductor industry.

(171) CTP refers to the Common Test Platform used in semiconductor manufacturing.

(172) The dopant was used to create a p-n junction in the semiconductor material.

(173) The energy of an electron in a semiconductor is measured in electron volts.

(174) The vacuum treatment is a common method used in the semiconductor industry.

(175) The electron device is manufactured using advanced semiconductor technology.

(176) Transistors are made from semiconductor materials like silicon or germanium.

(177) The reliability of a semiconductor is crucial for its long-term performance.

(178) Photolithographic technology is commonly used in the semiconductor industry.

(179) The properties of antimonies make them useful in the semiconductor industry.

(180) Epitaxy is used to create semiconductor structures with tailored properties.

(181) The vacuum-evaporate technique is widely used in the semiconductor industry.

(182) The size of a semiconductor device is often a key factor in its application.

(183) The nanostructure of the semiconductor enables efficient electron transport.

(184) The drift velocity of electrons in a semiconductor affects its conductivity.

(185) PIXE measurements are often used in the analysis of semiconductor materials.

(186) The gate electrode is patterned on the surface of a semiconductor substrate.

(187) The semiconductor device is used in electronic displays for vibrant visuals.

(188) The submicron size of the semiconductor made it ideal for use in microchips.

(189) The semiconductor manufacturing plant is a place with pure silicon crystals.

(190) Phosphine is commonly used in the semiconductor industry for doping silicon.

(191) The etching with silicon was a common practice in the semiconductor industry.

(192) Microprocessor chips are manufactured by specialized semiconductor companies.

(193) The microstructure of a semiconductor influences its electrical conductivity.

(194) The array transistors is governed by the principles of semiconductor physics.

(195) The photoexcited state of the semiconductor led to improved charge transport.

(196) Selenide is a chemical compound commonly used in semiconductor manufacturing.

(197) ESD can be a major concern in industries such as semiconductor manufacturing.

(198) The nanostructure of the semiconductor allowed for efficient energy transfer.

(199) The silicon chip is a key factor in the growth of the semiconductor industry.

(200) The semiconductor market is expected to reach new heights in the next decade.

(201) The semiconductor industry uses antimonide compounds in various applications.

(202) Metal oxide semiconductor sensors are commonly used in gas detection systems.

(203) The photocurrent in the semiconductor device was affected by the temperature.

(204) The dopant was used to create a heterojunction in the semiconductor material.

(205) Vacuum-degas is a critical step in the production of semiconductor materials.

(206) Microprocessor chips are manufactured using advanced semiconductor technology.

(207) The semiconductor industry plays a crucial role in technological advancements.

(208) The use of photomasks allows for the mass production of semiconductor devices.

(209) The band gap of a semiconductor determines its ability to conduct electricity.

(210) The field effect transistor is a fundamental concept in semiconductor physics.

(211) Arsine gas is commonly used in the semiconductor industry for doping purposes.

(212) The substrate with silicon plays a crucial role in the semiconductor industry.

(213) The microprobe detected the presence of impurities in the semiconductor wafer.

(214) The allotrope of phosphorus known as black phosphorus is a good semiconductor.

(215) The performance of a semiconductor device depends on its design and materials.

(216) The semiconductor device is made up of multiple layers of different materials.

(217) The p-type semiconductor material has a positive charge carrier concentration.

(218) The development of new semiconductor materials is an active field of research.

(219) Metal oxide semiconductor materials are used in the production of solar cells.

(220) The cleanroom is a highly controlled environment for semiconductor fabrication.

(221) The line spectrum of a semiconductor material can determine its bandgap energy.

(222) The resistivity of a semiconductor can be altered by doping it with impurities.

(223) The efficiency of a semiconductor device depends on its design and fabrication.

(224) The polycrystal structure of the semiconductor enables efficient electron flow.

(225) The silicide layer on the semiconductor surface reduces the contact resistance.

(226) The intercalated layers of metal and non-metal create a semiconductor material.

(227) Germanium is a semiconductor material that is often used in electronic devices.

(228) The semiconductor industry often uses arsenide compounds in electronic devices.

(229) The addressable memory is typically implemented using semiconductor technology.

(230) The semiconductor device industry is constantly evolving with new advancements.

(231) The semiconductor device is manufactured using advanced fabrication techniques.

(232) The semiconductor device is capable of switching electrical signals on and off.

(233) The use of silanes in the semiconductor industry has increased in recent years.

(234) The properties of silicon dioxide make it useful in the semiconductor industry.

(235) Fairchild Semiconductor was a major player in the development of the microchip.

(236) Oxysulphide is commonly used as a semiconductor material in electronic devices.

(237) The conductance of the semiconductor was improved by doping it with impurities.

(238) The dopant concentration in the semiconductor material affects its conductivity.

(239) Wurtzite is often used as a substrate for growing other semiconductor materials.

(240) Zinc cadmium sulfide is a semiconductor material with unique optical properties.

(241) The quality of photomasks directly affects the quality of semiconductor devices.

(242) Photomasks are an integral part of the semiconductor manufacturing supply chain.

(243) Many consumer electronics rely on semiconductor devices for their functionality.

(244) The semiconductor device market is expected to grow rapidly in the coming years.

(245) The semiconductor device industry is driven by constant innovation and research.

(246) The use of cyanogen in the semiconductor industry has increased in recent years.

(247) Solid state physics has contributed to the development of semiconductor devices.

(248) The deoxidizing process is crucial in the production of semiconductor materials.

(249) The CTP system ensures consistent and accurate testing of semiconductor devices.

(250) Free electrons in a semiconductor can be harnessed to create electronic devices.

(251) The microprocessor chip is manufactured using advanced semiconductor technology.

(252) The semiconductor device is a fundamental building block in electronic circuits.

(253) The semiconductor device is crucial for the operation of digital logic circuits.

(254) The formation of silicide is an important process in the semiconductor industry.

(255) The photomask is a crucial component in the semiconductor manufacturing process.

(256) The working substance in a thermoelectric generator is a semiconductor material.

(257) The polycrystalline nature of the semiconductor allowed for better conductivity.

(258) The absorption spectrum of a semiconductor can be used to determine its bandgap.

(259) Ultraviolet radiation is used in the semiconductor industry for photolithography.

(260) The researcher used a laser to peel apart the layers of a semiconductor material.

(261) The current density in the semiconductor material was calculated using Ohm's law.

(262) The Shockley diode is a type of semiconductor device used in electronic circuits.

(263) The semiconductor device is used in automotive electronics for various functions.

(264) The semiconductor device is designed to withstand harsh environmental conditions.

(265) Gallium arsenide is a semiconductor material commonly used in electronic devices.

(266) Ion pumps are used in the semiconductor industry to create high-purity materials.

(267) The elements in a semiconductor can conduct electricity under certain conditions.

(268) The ions in a semiconductor can be analyzed using a scanning electron microscope.

(269) The chemical reactivity of diborane makes it useful in the semiconductor industry.

(270) The microprobe is used in the semiconductor industry for quality control purposes.

(271) The reliability of a semiconductor device is crucial for its successful operation.

(272) The semiconductor device industry contributes significantly to the global economy.

(273) Free electrons in a semiconductor can be manipulated to create electronic devices.

(274) PIXE analysis is commonly used in the characterization of semiconductor materials.

(275) The semiconductor device is essential for the operation of transistors and diodes.

(276) The semiconductor device is used in medical devices for diagnostics and treatment.

(277) The semiconductor device is used in communication systems for signal transmission.

(278) The conductivity of a semiconductor can be increased by doping it with impurities.

(279) Solid state physics has contributed to the development of semiconductor technology.

(280) The use of superacid in the semiconductor industry has improved device performance.

(281) The microstructure of a semiconductor device determines its electronic performance.

(282) The dopant atoms can introduce energy levels within the bandgap of a semiconductor.

(283) The polycrystal structure of the semiconductor enables efficient energy conversion.

(284) The unoxidised germanium semiconductor played a crucial role in electronic devices.

(285) A semiconductor device is an electronic component used in many modern technologies.

(286) Pentafluoride is commonly used in the semiconductor industry for etching processes.

(287) The researcher deposited zinc onto the silicon wafer for semiconductor fabrication.

(288) When a forward bias is applied to a semiconductor, it reduces the depletion region.

(289) The study of polytypes has contributed to advancements in semiconductor technology.

(290) The semiconductor device is a key element in the production of integrated circuits.

(291) Helium is used in MRI machines, and it is also used in semiconductor manufacturing.

(292) The transfer with silicon technology has revolutionized the semiconductor industry.

(293) The oxidic layer on the semiconductor surface affected its electrical conductivity.

(294) The photosensitized semiconductor was able to convert light into electrical energy.

(295) The photon was absorbed by the semiconductor, and it created an electron-hole pair.

(296) The invention of the semiconductor was a turning point in the electronics industry.

(297) Diodes are typically made from semiconductor materials such as silicon or germanium.

(298) The efficiency of a solar cell depends on the quality of the semiconductor material.

(299) The photoexcited state of the semiconductor allowed for efficient charge separation.

(300) Photodiodes are semiconductor devices used to convert light into electrical current.

(301) The development of the semiconductor device revolutionized the field of electronics.

(302) The chipmaker's research team discovered a breakthrough in semiconductor technology.

(303) Free electrons in a semiconductor can be manipulated to control the flow of current.

(304) Free electrons in a semiconductor can be excited to higher energy levels by photons.

(305) The dopant was introduced into the crystal lattice to create a p-type semiconductor.

(306) Metal oxide semiconductor technology is widely used in the production of microchips.

(307) The breakdown voltage of diodes can be adjusted by doping the semiconductor material.

(308) The use of silanes in the semiconductor industry helps to improve device performance.

(309) The addition of a silicide dopant can modify the bandgap of a semiconductor material.

(310) The process of oxidizing with silicon is commonly used in the semiconductor industry.

(311) The motion of free electrons in a semiconductor determines its electronic properties.

(312) The semiconductor device is used in wireless communication systems for data transfer.

(313) The semiconductor industry plays a crucial role in global technological advancements.

(314) The high purity of aluminas makes them suitable for use in the semiconductor industry.

(315) The use of phosphoric acid in the semiconductor industry helps to etch silicon wafers.

(316) Tellurite is a semiconductor material that exhibits interesting electrical properties.

(317) Silicofluoric acid is commonly used as an etching agent in the semiconductor industry.

(318) The band gap of a semiconductor can be reduced by applying an external electric field.

(319) Dihydrogen is used in the semiconductor industry for the production of silicon wafers.

(320) Varistors are made from semiconductor materials such as zinc oxide or silicon carbide.

(321) Epitaxial growth is a highly specialized technique used in the semiconductor industry.

(322) The monomolecular layer on the surface of the semiconductor improved its conductivity.

(323) The trade price of automobiles has increased due to a shortage of semiconductor chips.

(324) The wafering machine is an essential tool in the semiconductor manufacturing industry.

(325) The semiconductor device is used in power electronics for efficient energy conversion.

(326) The dopant was used to create a gradient in the bandgap of the semiconductor material.

(327) The technique of depositing with silicon is widely used in the semiconductor industry.

(328) The use of pentafluoride in semiconductor manufacturing has increased in recent years.

(329) The automobile industry is facing challenges with the shortage of semiconductor chips.

(330) The lattice structure of the semiconductor material allows for efficient electron flow.

(331) HMDS is commonly used in the semiconductor industry as a photoresist adhesion promoter.

(332) The dark current of a semiconductor device can be measured using specialized equipment.

(333) The crystal lattice of a semiconductor material determines its electrical conductivity.

(334) The polycrystalline structure of this semiconductor allows for efficient electron flow.

(335) The semiconductor industry extensively uses nitride materials for various applications.

(336) The profit forecast for the automotive industry is impacted by semiconductor shortages.

(337) Pyrolytic deposition techniques are used in the manufacturing of semiconductor devices.

(338) The semiconductor device is used in radio frequency applications for signal processing.

(339) The semiconductor device is designed to minimize power consumption in portable devices.

(340) Twn is a leading player in the global semiconductor industry, with companies like TSMC.

(341) The metal oxide semiconductor industry is expected to grow rapidly in the coming years.

(342) The vacuum pump is used in the semiconductor industry for wafer handling and processing.

(343) The technique of encapsulating in silicon has revolutionized the semiconductor industry.

(344) The encapsulation process using silicon is widely adopted in the semiconductor industry.

(345) The noble gas is used in semiconductor manufacturing to create a controlled environment.

(346) The sterilis environment in the cleanroom was essential for semiconductor manufacturing.

(347) The p-type doping introduces holes as the majority charge carriers in the semiconductor.

(348) Gallium arsenide is often used as a substrate for growing other semiconductor materials.

(349) A semiconductor device is made from materials that have varying electrical conductivity.

(350) The manufacturing of semiconductor devices requires specialized equipment and processes.

(351) Gettering can be performed at various stages of the semiconductor manufacturing process.

(352) Lead dioxide is a semiconductor material that has potential applications in electronics.

(353) Wurtzite is a semiconductor material that has potential applications in optoelectronics.

(354) Silicon is a semiconductor, meaning it can conduct electricity under certain conditions.

(355) Heat plasma is used in semiconductor manufacturing to etch patterns onto silicon wafers.

(356) Plasma treatment is often used in the semiconductor industry to clean and etch surfaces.

(357) The electrical resistance of a semiconductor can be altered by doping it with impurities.

(358) The Hall effect is an important concept in solid-state physics and semiconductor devices.

(359) The performance of a semiconductor can be improved through advanced packaging techniques.

(360) Fluorinating is commonly used in the semiconductor industry to modify surface properties.

(361) Photomasks are used in both front-end and back-end semiconductor manufacturing processes.

(362) The polycrystalline structure of this semiconductor improves its electrical conductivity.

(363) The nitride layer on the semiconductor surface enhances its conductivity and performance.

(364) Plumbic telluride is a semiconductor material with potential applications in electronics.

(365) Oerlikon's semiconductor solutions enable the development of advanced electronic devices.

(366) The dopant concentration in the semiconductor material affects its electrical properties.

(367) The transistor, which is a semiconductor device, revolutionized the field of electronics.

(368) The electrical resistivity of a semiconductor can be altered by doping it with impurities.

(369) The electron lens is crucial for electron beam lithography in semiconductor manufacturing.

(370) The anisotropic conductivity of the semiconductor made it suitable for electronic devices.

(371) A semiconductor material has electrical conductivity between a conductor and an insulator.

(372) The polycrystalline structure of this semiconductor allows for efficient charge transport.

(373) The metal oxide semiconductor industry has experienced significant growth in recent years.

(374) Silicium is a semiconductor material that is used in the production of electronic devices.

(375) The performance of a semiconductor device depends on its design and manufacturing process.

(376) The miniaturization of semiconductor devices has led to smaller and more powerful devices.

(377) The development of new materials is crucial for advancing semiconductor device technology.

(378) The Shockley-Read-Hall recombination mechanism is widely studied in semiconductor physics.

(379) The microprobe allowed us to examine the surface topography of the semiconductor material.

(380) Wafering is a process used in the semiconductor industry to create thin slices of silicon.

(381) The semiconductor device plays a vital role in the functioning of smartphones and tablets.

(382) Photolithographic technology is used to create intricate patterns on semiconductor wafers.

(383) The phototransistor is a semiconductor device that converts light into electrical signals.

(384) The polycrystal structure of the semiconductor allows for precise control of electron flow.

(385) The silicide layer on the semiconductor surface improves the adhesion of subsequent layers.

(386) Isolators are used in the semiconductor industry to prevent damage to sensitive components.

(387) The semiconductor device industry plays a vital role in driving technological advancements.

(388) The reliability of semiconductor devices is continuously improved through rigorous testing.

(389) The semiconductor device is responsible for amplifying and controlling electrical currents.

(390) The semiconductor device is continuously evolving to meet the demands of modern technology.

(391) The drift velocity of electrons in a semiconductor can be controlled by applying a voltage.

(392) The development of superlattices has led to advances in the field of semiconductor physics.

(393) The microstructures of the semiconductor were carefully engineered for optimal performance.

(394) The breakdown voltage of a zener diode can be adjusted by doping the semiconductor material.

(395) Silicon is a semiconductor chemical element that is widely used in the electronics industry.

(396) The optical spectrometer is used in the semiconductor industry for quality control purposes.

(397) The complexity of photomasks has increased with the advancement of semiconductor technology.

(398) Trifluoride is commonly used as a cleaning agent in the semiconductor manufacturing process.

(399) The invention of the transistor was a major breakthrough in semiconductor device technology.

(400) The efficiency of semiconductor devices is a key consideration in energy-saving initiatives.

(401) The use of arsine in the semiconductor industry has revolutionized the field of electronics.

(402) The use of fluorination in the semiconductor industry has revolutionized device fabrication.

(403) The use of plasma treatment in the semiconductor industry is crucial for device fabrication.

(404) The drift velocity of electrons in a semiconductor can be altered by doping with impurities.

(405) The lattice structure of the semiconductor material allows for the flow of electric current.

(406) Arsine is commonly used in the semiconductor industry for its ability to deposit thin films.

(407) The coulombmeter is commonly used in the semiconductor industry to measure charge on wafers.

(408) Platinic sulfide is a semiconductor material that has potential applications in electronics.

(409) The microelectrode was used to measure the electrical properties of semiconductor materials.

(410) The vacuum-melt process is used to create high-purity metals for the semiconductor industry.

(411) The future of the semiconductor industry looks bright, with new advancements on the horizon.

(412) The transistor is a small semiconductor device that amplifies or switches electronic signals.

(413) The gate electrode is patterned on the semiconductor substrate during transistor fabrication.

(414) The study of microelectronics involves understanding the principles of semiconductor physics.

(415) Silicium is a key element in the production of silicon wafers for the semiconductor industry.

(416) The accuracy of photomasks is crucial in ensuring the functionality of semiconductor devices.

(417) Microcircuits are typically manufactured using advanced semiconductor fabrication techniques.

(418) Coprecipitation is a technique commonly used in the synthesis of semiconductor nanoparticles.

(419) The efficiency of a semiconductor device is determined by its energy conversion capabilities.

(420) The semiconductor industry heavily relies on the ability to connect with silicon effectively.

(421) The photodiode is a type of semiconductor device that converts light into electrical current.

(422) Free electrons in a semiconductor can be manipulated by applying a voltage to a p-n junction.

(423) The reliability of a semiconductor device is tested through rigorous quality control measures.

(424) The p-type semiconductor has a higher hole concentration compared to the n-type semiconductor.

(425) Vacuum-depositing a layer of oxide onto a semiconductor can improve its electrical properties.

(426) The nitride film on the semiconductor surface enhances its resistance to electrical breakdown.

(427) The isoelectronic nature of these elements makes them suitable for semiconductor applications.

(428) The semiconductor industry often combines with silicon to produce advanced electronic devices.

(429) The electrical resistivity of a semiconductor is between that of a conductor and an insulator.

(430) The researcher used a plasma etching process to etch with silicon on a semiconductor material.

(431) The transmission electron microscope helped in identifying defects in semiconductor materials.

(432) The semiconductor device is a key element in the development of renewable energy technologies.

(433) Gettering is essential for improving the performance and reliability of semiconductor devices.

(434) The polycrystal structure of the semiconductor allowed for better conductivity and efficiency.

(435) The epitaxial growth of the semiconductor material was crucial for the success of the project.

(436) The Fraunhofer Institute for Applied Solid State Physics specializes in semiconductor research.

(437) The use of boranes in the semiconductor industry has led to advancements in electronic devices.

(438) The development of advanced photomask technology has revolutionized the semiconductor industry.

(439) The demand for semiconductor devices is driven by the increasing need for advanced electronics.

(440) The miniaturization of semiconductor devices has led to the development of wearable technology.

(441) The photoelectrical properties of a semiconductor can be modified by doping it with impurities.

(442) These varistors are made of a semiconductor material with nonlinear resistance characteristics.

(443) The photoluminescence emission of the semiconductor was observed under different bias voltages.

(444) The semiconductor industry heavily relies on monocrystals for the production of computer chips.

(445) Zinc cadmium sulfide is a semiconductor material that is used in the production of solar cells.

(446) Gettering is a critical step in ensuring the quality and reliability of semiconductor products.

(447) The metal oxide semiconductor field-effect transistor is a key component in modern electronics.

(448) The charge-coupled device is a semiconductor device that converts light into electrical signals.

(449) The process of combining with silicon is a fundamental technique in semiconductor manufacturing.

(450) The semiconductor industry utilizes nitrogen to prevent contamination during chip manufacturing.

(451) Ambipolar diffusion is often used in plasma processing techniques for semiconductor fabrication.

(452) Germanium is a semiconductor material that has properties between those of metals and nonmetals.

(453) The thickness of a photoresist layer in semiconductor manufacturing is measured in millimicrons.

(454) The ohmic behavior of the semiconductor material made it suitable for use in electronic devices.

(455) The automobile industry is experiencing a shortage of semiconductor chips, affecting production.

(456) The semiconductor device is responsible for converting light into electrical signals in cameras.

(457) The band gap of this semiconductor material is too narrow for efficient solar cell applications.

(458) The photoconductive properties of the semiconductor make it ideal for use in photovoltaic cells.

(459) The efficiency of rectifiers can be improved through the use of advanced semiconductor materials.

(460) The use of trifluoride in the semiconductor industry is crucial for the production of microchips.

(461) The silicon chip is a tiny piece of semiconductor material that contains millions of transistors.

(462) Metal oxide semiconductor devices are known for their high reliability and low power consumption.

(463) The study of Brownian motion can help us understand the behavior of particles in a semiconductor.

(464) Polycrystals are widely used in the semiconductor industry for their unique electrical properties.

(465) Nitrides have unique electronic properties that make them suitable for semiconductor applications.

(466) The performance of a semiconductor device can be affected by external factors such as temperature.

(467) The performance of a semiconductor device can be optimized through careful design and engineering.

(468) The temperature-coefficient of a semiconductor affects its conductivity at different temperatures.

(469) Elutriation is a key step in the production of high-purity silicon for the semiconductor industry.

(470) Hafnium is used in the production of electrodes for plasma etching in semiconductor manufacturing.

(471) The varistor is made of a semiconductor material that changes its resistance with applied voltage.

(472) The optical spectrometer is used in the semiconductor industry to analyze the purity of materials.

(473) The unit of production for this semiconductor manufacturer is measured in units of chips produced.

(474) The adsorbates on the surface of the semiconductor were responsible for its electrical properties.

(475) Gettering is a process used in semiconductor manufacturing to remove impurities from the material.

(476) The first transistor was made of germanium, and it was a breakthrough in semiconductor technology.

(477) Inert gases are used in the semiconductor industry to create a clean environment for manufacturing.

(478) When a semiconductor material is doped, some atoms break into electrons and create charge carriers.

(479) The transfer with dioxide technique is a crucial step in the production of semiconductor materials.

(480) Fluorocarbon gases are commonly used in the semiconductor industry for plasma etching and cleaning.

(481) The uniaxal alignment of the molecules allowed for efficient charge transport in the semiconductor.

(482) Cleaving is a technique used in microfabrication to create precise patterns on semiconductor wafers.

(483) The photoluminescence emission of the semiconductor was tuned by adjusting the doping concentration.

(484) The reverse breakdown voltage of a zener diode can be adjusted by doping the semiconductor material.

(485) With a potentiostat, scientists can explore the electrochemical behavior of semiconductor materials.

(486) The semiconductor device is used in various applications, including computer chips and solar panels.

(487) Vacuum sublimation is commonly used in the semiconductor industry to produce high-quality materials.

(488) The semiconductor devices were passivated with silicon to improve their performance and reliability.

(489) The varactor is a semiconductor device that exhibits a nonlinear capacitance-voltage characteristic.

(490) The development of new photomask technologies is essential for advancing the semiconductor industry.

(491) Epitaxy is a process used in the semiconductor industry to grow thin films of crystalline materials.

(492) Excimer formation is a key step in the photolithography process used in semiconductor manufacturing.

(493) The ionization of atoms in a semiconductor material can lead to the generation of electrical current.

(494) The use of fluorin in the semiconductor industry is crucial for the production of electronic devices.

(495) The ability to dissolve in silicon is crucial for certain applications in the semiconductor industry.

(496) Excitons can be created in semiconductor heterostructures through the process of bandgap engineering.

(497) The gettering process helps to trap and immobilize unwanted impurities in the semiconductor material.

(498) Gettering is an integral part of the overall quality control measures in semiconductor manufacturing.

(499) The ionising process is used in ion implantation to modify the properties of semiconductor materials.

(500) Dinitrogen hexafluoride is a compound that is used as a cleaning agent in the semiconductor industry.

(501) The semiconductor manufacturer treats their silicon wafers with dioxide to create a protective layer.

(502) The metal oxide semiconductor process involves depositing a thin layer of oxide on a metal substrate.

(503) Electron beam evaporation is a popular method for depositing thin films in the semiconductor industry.

(504) A light-emitting diode is a semiconductor device that emits light when an electric current is applied.

(505) The dopant concentration plays a crucial role in determining the conductivity type of a semiconductor.

(506) Scrubbers are widely used in the semiconductor industry to control the release of hazardous chemicals.

(507) The high chemical resistance of fluoropolymer makes it suitable for use in the semiconductor industry.

(508) The addition of a silicide dopant can improve the electrical conductivity of a semiconductor material.

(509) The integration of multiple semiconductor devices on a single chip has led to increased functionality.

(510) The performance of a semiconductor device can be enhanced through continuous research and development.

(511) Taking a short position on the semiconductor industry can be a bet against technological advancements.

(512) The advancements in semiconductor technology have led to the development of more efficient rectifiers.

(513) The resistivity of a substance can be used to classify it as a conductor, insulator, or semiconductor.

(514) Passivation is commonly used in the semiconductor industry to protect sensitive electronic components.

(515) Fluorocarbon gases are commonly used in the semiconductor industry for cleaning and etching processes.

(516) Trifluoride compounds are often used in the semiconductor industry for etching and cleaning processes.

(517) The drift velocity of electrons in a semiconductor device can be controlled by applying a bias voltage.

(518) The process of siliconizing is widely used in the semiconductor industry to create integrated circuits.

(519) The use of nitrides in the semiconductor industry has led to the miniaturization of electronic devices.

(520) The semiconductor industry relies heavily on dopant materials, which are added to improve conductivity.

(521) The drift velocity of electrons in a semiconductor material can be altered by doping it with impurities.

(522) The drift velocity of electrons in a semiconductor material can be enhanced by reducing impurity levels.

(523) Gettering is an essential part of the overall yield enhancement strategy in semiconductor manufacturing.

(524) Acid leaching is a crucial step in the production of high-purity silicon for the semiconductor industry.

(525) The field effect transistor operates by controlling the flow of current through a semiconductor channel.

(526) The light-emitting diode is a semiconductor device that emits light when an electric current is applied.

(527) The use of silane in the semiconductor industry has revolutionized the production of electronic devices.

(528) The electrical conductivity of the semiconductor was anisotropically modulated by the crystal structure.

(529) The use of gettering has become increasingly important as semiconductor technology continues to advance.

(530) The crystal lattice of a semiconductor material can be engineered to have specific electrical properties.

(531) Dopants are commonly used in the semiconductor industry to modify the electrical properties of materials.

(532) Gettering is a process used in semiconductor manufacturing to remove impurities from the crystal lattice.

(533) The deionize system is an essential component of the manufacturing process in the semiconductor industry.

(534) Electrostatic induction is used in electrostatic chucking to hold semiconductor wafers during processing.

(535) The electrostatic field is used in electrostatic chucking to hold semiconductor wafers during processing.

(536) The photoconductor is a type of semiconductor that is used in many different types of electronic devices.

(537) The electrolytic process can be used to produce high-purity gases for use in semiconductor manufacturing.

(538) The dopant was added to the semiconductor material, and the resulting device showed enhanced performance.

(539) The closing price of the semiconductor industry index showed a strong correlation with global chip demand.

(540) The photoconductor is made of a semiconductor material that can conduct electricity when exposed to light.

(541) The reliability of semiconductor devices is a critical factor in industries such as aerospace and defense.

(542) Ultramicroscopes are used in semiconductor manufacturing to analyze the properties of nanoscale materials.

(543) Ferrosilicon is a crucial component in the manufacturing of silicon wafers for the semiconductor industry.

(544) The study of microelectronics involves understanding the behavior of electrons in semiconductor materials.

(545) The transmission electron microscope revealed the presence of nanoscale defects in a semiconductor device.

(546) The excitonic binding energy in semiconductor nanocrystals can be measured using spectroscopic techniques.

(547) The gettering technique is constantly being refined to address new challenges in semiconductor fabrication.

(548) The ultraviolet spectrum is used in lithography to create high-resolution patterns on semiconductor wafers.

(549) Coulometric techniques are often used in the semiconductor industry to measure the thickness of thin films.

(550) The use of a high-purity dopant material is essential for achieving high-performance semiconductor devices.

The word usage examples above have been gathered from various sources to reflect current and historical usage of the word Semiconductor. They do not represent the opinions of TranslateEN.com.