UNIVERSITY PARK, Pa. — Two-dimensional materials can be used to create smaller, high-performance transistors traditionally made of silicon, according to Saptarshi Das, assistant professor of engineering science and mechanics (ESM) in Penn State’s College of Engineering.
Das and his collaborators report in Nature Communications on tests to determine the technological viability of transistors made from 2D materials. Transistors are tiny digital switches found in cell phones, computer circuits, smart watches and the like.
“We live in a digital and connected world driven by data,” Das said. “Big data requires increased storage and processing power. If you want to store or process more data, you need to utilize more and more transistors.”
In other words, as modern technology continues to get more compact, so must transistors, which are considered the building blocks of computer processing.
Silicon, a 3D material that has been used to manufacture transistors for six decades, cannot be produced any smaller, according to Das, which makes its use in transistors increasingly challenging.
“It is difficult to manufacture silicon transistors that are only a few atoms thick,” Das said.
Past research studies determined that the 2D materials, as an alternative, can be manufactured 10 times thinner than the silicon technology currently in practice.
In the current study, researchers grew monolayer molybdenum disulfide and tungsten disulfide using a metal organic chemical vapor deposition technique obtained from the 2D Crystal Consortium NSF Materials Innovation Platform (2DCC-MIP) at Penn State.
To understand how the new 2D transistors perform, the researchers analyzed statistical measures as seen in relation to threshold voltage, subthreshold slope, ratio of maximum to minimum current, field-effect carrier mobility, contact resistance, drive-current and carrier saturation velocity.
The tests confirmed the viability of the new transistors, proving the technology can now move forward to manufacturing and development, according to Das.
“These new transistors can help make the next generation of computers faster, more energy efficient and able to withstand more data processing and storing,” Das said.
In addition to Das, Penn State researchers include Joan Redwing, professor of materials science and engineering, chemical engineering and electrical engineering; Tanushree Choudhury, assistant research professor of materials science and engineering at 2DCC-MIP; Amritanand Sebastian, ESM doctoral candidate; and Rahul Pendurthi, ESM master’s degree student.
The National Science Foundation and the U.S. Army Research Laboratory supported this work.