The long-standing popularity of thermoelectric materials has contributed to the creation of
various thermoelectric devices and stimulated the development of strategies to improve their …

In the effort to develop disruptive quantum technologies, germanium is emerging as a
versatile material to realize devices capable of encoding, processing and transmitting …

Semiconductor nanowires have attracted extensive interest as one of the best-defined
classes of nanoscale building blocks for the bottom-up assembly of functional electronic and …

Nano-bioelectronics represents a rapidly expanding interdisciplinary field that combines
nanomaterials with biology and electronics and, in so doing, offers the potential to overcome …

Semiconductor nanowires (NWs) have been studied extensively for over two decades for
their novel electronic, photonic, thermal, electrochemical and mechanical properties. This …

This review describes recent groundbreaking results in Si, Si/SiGe, and dopant-based
quantum dots, and it highlights the remarkable advances in Si-based quantum physics that …

Transfer printing represents a set of techniques for deterministic assembly of micro‐and
nanomaterials into spatially organized, functional arrangements with two and three …

Quantum information science and engineering (QISE)—which entails the use of quantum
mechanical states for information processing, communications, and sensing—and the area …

Recently low-dimensional materials hold great potential in the field of photocatalysis,
whereas the concomitantly promoted many-body effects have long been ignored. Such …

Quantum computers promise to execute complex tasks exponentially faster than any
possible classical computer, and thus spur breakthroughs in quantum chemistry, material …