Researchers in South Korea have developed a new residue-free transfer method for two-dimensional (2D) transition metal dichalcogenides(TMDs), which could revolutionize beyond silicon technology. The method uses polypropylene carbonate (PPC) to transfer the TMDs, which eliminates the need for other polymers that often leave insulating residues. This allows for the production of wafer-scale TMDs with high electrical performance. The researchers believe that their method could be used to develop new high-performance electronic devices, such as transistors and sensors.
Related Posts
AI vision tracks humans like a hawk, day or night
Never lose sight of your target! This AI tech tracks humans in real-time, even with tricky lighting, background clutter, and costume changes. Researchers have developed a cutting-edge AI system that tracks humans in real-time with unmatched accuracy and adaptability. This means: No more color chaos: Whether you’re wearing neon pink or camouflaged in the shadows, the […]
Decoding the DNA of Family Business CSR: Machine Learning Uncovers Key Drivers
Family businesses often form the very foundation of local economies, but how do they fare when it comes to giving back to society? A recent study delves into the factors that influence corporate social responsibility (CSR) in these unique organizations, employing machine learning to uncover the hidden drivers of good deeds. Profitability: Doing Good is […]
Scientific Brainstorming with AI: A Chatbot that Boosts Your Research
Scientists, get ready for a brain boost! This explores how AI could become your next research partner, offering insightful feedback and sparking innovative ideas. Meet the Nanobot Brain: Knowledge at Your Fingertips: This AI assistant delves deep into scientific publications, understanding complex concepts and frontier research. No Time for Tedious Tasks: Let the bot handle document organization, […]