The power of chemistry to prepare new molecules and materials has driven the quest for
new approaches to solve problems having global societal impact, such as in renewable …

Solid-state spin systems including nitrogen-vacancy (NV) centers in diamond constitute an
increasingly favored quantum sensing platform. However, present NV ensemble devices …

Spins of impurities in solids provide a unique architecture to realize quantum technologies.
A quantum register of electron and nearby nuclear spins in the lattice encompasses high …

“Quantum sensing” describes the use of a quantum system, quantum properties, or quantum
phenomena to perform a measurement of a physical quantity. Historical examples of …

Quantum computers have made extraordinary progress over the past decade, and
significant milestones have been achieved along the path of pursuing universal fault-tolerant …

Measuring certain quantities at the nanoscale is often limited to strict conditions such as low
temperature or vacuum. However, the recently developed nanodiamond (ND) quantum …

Spin-bearing molecules are promising building blocks for quantum technologies as they can
be chemically tuned, assembled into scalable arrays, and readily incorporated into diverse …

The long-dreamed-of capability of monitoring the molecular machinery in living systems has
not been realized yet, mainly due to the technical limitations of current sensing technologies …

Spins associated to optically accessible solid-state defects have emerged as a versatile
platform for exploring quantum simulation, quantum sensing and quantum communication …

Optically interfaced molecular spins are a promising platform for quantum sensing and
imaging. Key for such applications is optically detecting coherent spin manipulation at room …