Nanomaterials: Compatibility Towards Biological Interactions

Singh, Pankhi; Chugh, Vibhas; Banerjee, Antara; Pathak, Surajit; Bose, Sudeep; Nayak, Ranu

doi:10.1007/978-981-19-1731-8_19-1

Cited by 2 publications

(1 citation statement)

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“…[16][17][18] Due to these material's tighter energy levels, just a little variation in expropriated external energy is quickly sensed, that is the key to their microscopic biological responsiveness. 19,20 The operational responsiveness of NSs that is shape and size dependency, and a large surface energy is yet another characteristic of their capability for bio-sensing. Electrical uses and individual charge particle transport are particularly well adapted to the geometries of graphene, CNTs, and semiconducting nanowires.…”

Section: Emerging Nanotechnology For Q-s/bsmentioning

confidence: 99%

Progression in Quantum Sensing/Bio-Sensing Technologies for Healthcare

Chugh¹,

Basu

Kaushik

et al. 2023

ECS Sens. Plus

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5th/6th generation bio-sensing technology is an emerging field requiring connection with efficient nano-enabled sensing platforms optimized for point-of-care testing to investigate health management strategies. Recently, the integration and interfacing between quantum measurement, signalling, and optimized bio-actives has led to investigation of minute biological events with anomalous sensitivity. Such quantum biosensing is expected to provide the possibility to measure or record phenomena at those scales with pressure, temperature, and electromagnetic fields. Considering current scenarios, this perspective highlights state-of-the-art quantum sensing technology along with challenges and prospects.

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