Creating a Roadmap for 2D Materials
January 18, 2019 | Pennsylvania State UniversityEstimated reading time: 4 minutes
The rapid growth of research on 2D materials – materials such as graphene and others that are a single or few atoms thick – is fueled by the hope of developing better performing sensors for health and environment, more economical solar energy, and higher performing and more energy efficient electronics than is possible with current silicon electronics.
The rapid growth of research on 2D materials – materials such as graphene and others that are a single or few atoms thick – is fueled by the hope of developing better performing sensors for health and environment, more economical solar energy, and higher performing and more energy efficient electronics than is possible with current silicon electronics.
Technical roadmaps, such as the International Technology Roadmap for Semiconductors (ITRS), first published in 1998, serve as guides for future advances in a particular field and provide a means for organizations to plan for investments in new technology.
An invited article in the December online edition of the journal 2D Materials provides a roadmap for the synthesis of electronic-grade two-dimensional materials for future electronic and sensing applications. Led by Penn State, with contributions from five additional universities and national laboratories, the roadmap addresses the grand challenges in 2D materials with useful electronic or photonic properties, and the outlook for U.S. advances in the field.
“This article is a review of where we currently are in regard to the synthesis of 2D materials and our thoughts on the top research priorities that need to be addressed to achieve electronic grade 2D materials,” said Joshua Robinson, associate professor of materials science and engineering, whose Ph.D. students Natalie Briggs and Shruti Subramanian are co-lead authors on the report titled “A Roadmap for Electronic Grade 2-Dimensional Materials,” published online today, Jan. 17.
“2D materials are touted to be revolutionary for a variety of technologies, assuming the materials are perfect,” he said. “But that’s never the case – we have a long way to go before the materials are perfect. Our hope is that the roadmap provides a guide to get us there. Once that happens, the technology can really take off.”
The authors divided the paper into four parts: Grand Challenges, which are the technology drivers, such as the internet of things; Synthesis, the techniques and theories required to grow close to perfect 2D materials; Materials Engineering, which is fine tuning the properties of 2D and composite materials; and finally, Outlook, which is the future of electronic devices when silicon technology reaches an inevitable roadblock.
“To put our roadmap together, we reached out to experts in various subfields, such as different synthesis approaches, defect engineering and computational theory,” said Briggs of the two-year project. “We asked them to talk about the key fundamental challenges and the steps required to address these challenges in their area of expertise.”
Robinson added, “This is the first roadmap focused on 2D synthesis for electronic applications and there are still a lot of open questions. We want to bring some of those topics into the light.”
A list of the twenty authors and their affiliations can be found online in the open access article in 2D Materials.
roadmaps, such as the International Technology Roadmap for Semiconductors (ITRS), first published in 1998, serve as guides for future advances in a particular field and provide a means for organizations to plan for investments in new technology.
An invited article in the December online edition of the journal 2D Materials provides a roadmap for the synthesis of electronic-grade two-dimensional materials for future electronic and sensing applications. Led by Penn State, with contributions from five additional universities and national laboratories, the roadmap addresses the grand challenges in 2D materials with useful electronic or photonic properties, and the outlook for U.S. advances in the field.
“This article is a review of where we currently are in regard to the synthesis of 2D materials and our thoughts on the top research priorities that need to be addressed to achieve electronic grade 2D materials,” said Joshua Robinson, associate professor of materials science and engineering, whose Ph.D. students Natalie Briggs and Shruti Subramanian are co-lead authors on the report titled “A Roadmap for Electronic Grade 2-Dimensional Materials”.
“2D materials are touted to be revolutionary for a variety of technologies, assuming the materials are perfect,” he said. “But that’s never the case – we have a long way to go before the materials are perfect. Our hope is that the roadmap provides a guide to get us there. Once that happens, the technology can really take off.”
The authors divided the paper into four parts: Grand Challenges, which are the technology drivers, such as the internet of things; Synthesis, the techniques and theories required to grow close to perfect 2D materials; Materials Engineering, which is fine tuning the properties of 2D and composite materials; and finally, Outlook, which is the future of electronic devices when silicon technology reaches an inevitable roadblock.
“To put our roadmap together, we reached out to experts in various subfields, such as different synthesis approaches, defect engineering and computational theory,” said Briggs of the two-year project. “We asked them to talk about the key fundamental challenges and the steps required to address these challenges in their area of expertise.”
Robinson added, “This is the first roadmap focused on 2D synthesis for electronic applications and there are still a lot of open questions. We want to bring some of those topics into the light.”
A list of the twenty authors and their affiliations can be found online in the open access article in 2D Materials.
Suggested Items
Koh Young Showcases Award-winning Inspection Solutions at SMTconnect with SmartRep in Hall 4A.225
04/25/2024 | Koh Young TechnologyKoh Young Technology, the industry leader in True 3D measurement-based inspection solutions, will showcase an array of award-winning inspection and measurement solutions at SMTconnect alongside its sales partner, SmartRep, in booth 4A.225 at NürnbergMesse from June 11-13, 2023. The following offers a glimpse into what Koh Young will present at the tradeshow:
Real Time with… IPC APEX EXPO 2024: Plasmatreat: Innovative Surface Preparation Solutions
04/25/2024 | Real Time with...IPC APEX EXPOIn this interview, Editor Nolan Johnson speaks with Hardev Grewal, CEO and president of Plasmatreat, a developer of atmospheric plasma solutions. Plasmatreat uses clean compressed air and electricity to create plasma, offering environmentally friendly methods for surface preparation. Their technology measures plasma density for process optimization and can remove organic micro-contamination. Nolan and Hardev also discuss REDOX-Tool, a new technology for removing metal oxides.
Nanotechnology Market to Surpass $53.51 Billion by 2031
04/25/2024 | PRNewswireSkyQuest projects that the nanotechnology market will attain a value of USD 53.51 billion by 2031, with a CAGR of 36.4% over the forecast period (2024-2031).
Cadence, TSMC Collaborate on Wide-Ranging Innovations to Transform System and Semiconductor Design
04/25/2024 | Cadence Design SystemsCadence Design Systems, Inc. and TSMC have extended their longstanding collaboration by announcing a broad range of innovative technology advancements to accelerate design, including developments ranging from 3D-IC and advanced process nodes to design IP and photonics.
SMC Korea 2024 to Highlight Semiconductor Materials Trends and Innovations on Industry’s Path to $1 Trillion
04/24/2024 | SEMIWith Korea a major consumer of semiconductor materials and advanced materials a key driver of innovation on the industry’s path to $1 trillion, industry leaders and experts will gather at SMC (Strategic Materials Conference) Korea 2024 on May 29 at the Suwon Convention Center in Gyeonggi-do, South Korea to provide insights into the latest materials developments and trends. Registration is open.