This book explores the cutting edge where nanoscience meets picotechnology, the realm of sub-nanometer precision and atomic-scale control. It brings together advances in materials science, physics, chemistry, and engineering to reveal how manipulating matter at the nano- and pico-scales is transforming material design, functionality, and performance. The discussion moves from the fundamentals of quantum behavior, atomic interactions, and surface phenomena to the latest fabrication and characterization tools, including atomic-scale lithography, high-resolution microscopy, scanning probe methods, and in situ spectroscopies. Along the way, it showcases breakthroughs in smart materials, quantum dots, two-dimensional systems, and molecular machines built from the atom upward.
With a forward-looking perspective, the book examines how these innovations intersect with synthetic biology, quantum computing, energy storage, and neuromorphic engineering, while also addressing speculative directions, ethical considerations, and the growing role of artificial intelligence in autonomous nano-pico design. Written for researchers, engineers, and graduate students, it bridges the conceptual and technological divide between the nano and pico worlds, inspiring innovative strategies for creating the next generation of materials and systems.
This book explores the cutting edge where nanoscience meets picotechnology, the realm of sub-nanometer precision and atomic-scale control. It brings together advances in materials science, physics, chemistry, and engineering to reveal how manipulating matter at the nano- and pico-scales is transforming material design, functionality, and performance. The discussion moves from the fundamentals of quantum behavior, atomic interactions, and surface phenomena to the latest fabrication and characterization tools, including atomic-scale lithography, high-resolution microscopy, scanning probe methods, and in situ spectroscopies. Along the way, it showcases breakthroughs in smart materials, quantum dots, two-dimensional systems, and molecular machines built from the atom upward.
With a forward-looking perspective, the book examines how these innovations intersect with synthetic biology, quantum computing, energy storage, and neuromorphic engineering, while also addressing speculative directions, ethical considerations, and the growing role of artificial intelligence in autonomous nano-pico design. Written for researchers, engineers, and graduate students, it bridges the conceptual and technological divide between the nano and pico worlds, inspiring innovative strategies for creating the next generation of materials and systems.
Shrikaant Kulkarni
atomic scale precision engineering sub-nanometer materials pico-level characterization techniques scanning probe microscopy atomic-scale spectroscopy molecular beam epitaxy atomic layer deposition STM-based manipulation multiscale materials modelling AI-driven materials discovery nano-pico architectures in quantum devices biomedical interfaces at ultra-miniaturized scales quantum sensors entangled photon sources smart materials