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A NIMS research team has successfully developed the world’s first n-channel diamond MOSFET, a breakthrough that enables the creation of diamond-based CMOS integrated circuits for high-performance use in extreme environments. This innovation leverages diamond’s exceptional properties, such as high thermal conductivity and radiation resistance, paving the way for energy-efficient electronics capable of operating under intense heat and radiation. (Artist’s concept.) Credit: SciTechDaily.com
A step forward in the development of diamond CMOS integrated circuits.
A research team at NIMS has developed the world’s first n-channel diamond MOSFET (metal-oxide-semiconductor field-effect transistor). This breakthrough marks a significant step toward realizing CMOS (complementary metal-oxide-semiconductor) integrated circuits based on diamond, enabling their use in extreme environments and advancing the development of diamond-based power electronics.
Diamond as a semiconductor offers exceptional physical properties, including an ultra-wide bandgap of 5.5 eV, high carrier mobility, and excellent thermal conductivity. These characteristics make diamond a highly promising material for high-performance, high-reliability applications in extreme conditions, such as high temperatures and intense radiation—like those near nuclear reactor cores.
Diamond electronics not only reduce the need for complex thermal management systems compared to conventional semiconductors, but they also offer greater energy efficiency, higher breakdown voltage tolerance, and enhanced durability in harsh environments.
Demand for Diamond CMOS Integration
On the other hand, with the development of diamond growth technologies, power electronics, spintronics, and microelectromechanical system (MEMS) sensors operatable under high-temperature and strong-radiation conditions, the demand for peripheral circuitry based on diamond CMOS devices has increased for monolithic integration. For the fabrication of CMOS integrated circuits, both p-type and n-type channel MOSFETs are needed, just as in conventional silicon electronics. However, n-channel diamond MOSFETs had not yet been developed.
(Left) Atomic force microscope image of diamond epilayer surface morphology. (Middle) Optical microscope image of the diamond MOSFET. (Right) Performance of the MOSFET measured at 300°C. The drain current increased when the gate voltage (Vg) was increased from -20 V (indicated by a black line) to 10 V (indicated by a yellow line). Credit: Satoshi Koizumi, Meiyong Liao National Institute for Materials Science
This NIMS research team developed a technique to grow high-quality monocrystalline n-type diamond semiconductors with smooth and flat terraces at the atomic level by doping diamond with a low concentration of phosphorus (diagram on the left in the figure). Using this technique, the team succeeded in fabricating an n-channel diamond MOSFET for the first time in the world.
Design and Performance Validation
This MOSFET is composed mainly of an n-channel diamond semiconductor layer atop another diamond layer doped with a high concentration of phosphorus (middle diagram in the figure). The use of the latter diamond layer significantly reduced source and drain contact resistance. The team confirmed that the fabricated diamond MOSFET actually functioned as an n-channel transistor.
In addition, the team verified the excellent high-temperature performance of the MOSFET as indicated by its field-effect mobility—an important transistor performance indicator—of approximately 150 cm2/V・sec at 300°C (graph on the right in the figure).
These achievements are expected to facilitate the development of CMOS integrated circuits for the manufacture of energy-efficient power electronics, spintronic devices, and (MEMS) sensors under harsh environments.
Reference: “High-Temperature and High-Electron Mobility Metal-Oxide-Semiconductor Field-Effect Transistors Based on N-Type Diamond” by Meiyong Liao, Huanying Sun and Satoshi Koizumi, 19 January 2024, Advanced Science.
DOI: 10.1002/advs.202306013
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