Mario Lanza

Sep 11, 2024 | onlinelibrary.wiley.com | Yue Yuan |Mario Lanza

1 Introduction Conductive atomic force microscopy (CAFM) has emerged as a powerful technique that allows measuring the electrical properties of different types of materials at the nanoscale with high lateral resolution, typically down to ≈1 nm[1] although recent studies have demonstrated atomic resolution.[2] In its origin, CAFM was conceived to analyze the tunneling current across thin dielectric films,[3] but with time its use has expanded to many other applications, including...

May 9, 2024 | nature.com | Mario Lanza

The way in which researchers, scientists and engineers apply for jobs is very inefficient. Creating free online databases of candidates with filtering, ranking and video features could help to maximize reach and identify the most suitable person for each job offer much faster.

Dec 22, 2023 | onlinelibrary.wiley.com | Mario Lanza |He Tian

Memristive devices are entering in our lives.

Oct 4, 2023 | nature.com | Mario Lanza

With micro- and nanoelectronic devices and circuits, the most important technical requirements are related to performance metrics (mobility and subthreshold swing for transistors, and switching energy and endurance for memristors), reproducibility (yield, variability, reliability and stability) and fabrication processes (the use of a competitive device structure and size, the use of industry-compatible materials and the feasibility of scaling to the wafer level)1,2.

May 10, 2023 | nature.com | He Tian |Hao Sun |Mario Lanza

AbstractMemristor-based circuits offer low hardware costs and in-memory computing, but full-memristive circuit integration for different algorithm remains limited. Cellular automata (CA) has been noticed for its well-known parallel, bio-inspired, computational characteristics. Running CA on conventional chips suffers from low parallelism and high hardware costs. Establishing dedicated hardware for CA remains elusive.