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Lasers Move Diamond Nanoparticles into Bio Applications

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Scientists from Hokkaido University, Osaka Prefecture University, and Osaka University showed the ability to use laser beams of different wavelengths, and from opposing directions, to move diamond nanoparticles that are roughly 50 nm in size in a proof-of-concept experiment. The demonstrated approach builds on the fundamental principles and outcomes of optical trapping and aims to establish a foundation for future and forthcoming applications in biological imaging and quantum computing.

Nanodiamonds have carbon atom lattices that sometimes contain an imperfection in which a nitrogen atom and a physical vacancy (or fluorescent center) replace two neighboring carbon atoms. The imperfection changes the quantum mechanical properties of the affected nanodiamond, altering how its nanoparticles react to light. These nanodiamonds (called “resonant” nanodiamonds when they have this fluorescent center) absorb green light and emit red fluorescence.

As a result of these properties and characteristics, resonant nanodiamonds are under investigation for biosensing applications, for biological imaging, and as single-photon sources.

In the current work, the researchers, led by Hokkaido University’s Keiji Sasaki, soaked an optical nanofiber in nanodiamond-based solutions, using nanodiamonds with and without fluorescent centers. Using a green laser and shining it through one end of the nanofiber, they trapped a single nanodiamond with fluorescent centers and successfully transported it away from the laser. The nanodiamond did absorb part of the laser light that hit it, and some of the light was scattered.

The optical forces acting on the nanodiamond. The nanodiamond absorbs a part of the laser light that shines on it (Fabs); some of the light is also scattered (Fsca). The interactions between these forces causes the movement of the nanodiamond. Courtesy of Hideki Fujiwara et al. (Science Advances).
The optical forces acting on the nanodiamond. The nanodiamond absorbs a part of the laser light that shines on it (Fabs); some of the light is also scattered (Fsca). The interactions between these forces cause the movement of the nanodiamond. Courtesy of Hideki Fujiwara et al. (Science Advances).
The researchers also demonstrated that when they shone a green and red lasers on the nanodimaonds from opposite sides of the nanofiber, they were able to independently control the movement of resonant and nonresonant nanodimaonds.

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The red laser pushed the nonresonant nanodiamonds with greater strength than the green laser. The green laser pushed the resonant nanodiamonds with greater strength, as the resonant nanodiamonds absorbed the red light.

Further, by observing their movement under the precise conditions at which they performed the work, the scientists were able to determine the number of fluorescent centers present in each resonant nanodiamond.

Following the successful proof of concept, the team members said their next step is to apply their method for trapping and manipulating nanodiamonds to dye-doped nanoparticles. Those organic nanoparticles can function as nanoprobes in biodetection systems.

The study was supported by the Japan Society for the Promotion of Science and by the Cooperative Research Program of the Network Joint Research Center for Materials and Devices.

The research was published in Science Advances (www.doi.org/10.1126/sciadv.abd9551).

*This article has been updated for acccuracy

Published: March 2021
Glossary
quantum
The term quantum refers to the fundamental unit or discrete amount of a physical quantity involved in interactions at the atomic and subatomic scales. It originates from quantum theory, a branch of physics that emerged in the early 20th century to explain phenomena observed on very small scales, where classical physics fails to provide accurate explanations. In the context of quantum theory, several key concepts are associated with the term quantum: Quantum mechanics: This is the branch of...
Asia PacificJapanHokkaido UniversityOsaka UniversityOsaka Prefecture Universityred lasergreen laserBiophotonicsbiosensingbioimagingnanodiamondsnanoparticlessingle-photon sourcesOptical trappingquantumbiodetectionSensors & DetectorsTech Pulse

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