| Literature DB >> 30575388 |
Sheng Wang1,2, Guocan Yu2, Ying Ma2, Zhen Yang2, Yi Liu3, Jing Wang1, Xiaoyuan Chen2.
Abstract
Aberrant copper contents implicate numerous diseases including Alzheimer's disease and Wilson's disease. Conventional copper detection technologies are difficult to offer non-invasive and accurate deep tissue detection of copper. Here, we report a photoacoustic (PA) nanoprobe (NRh-IR-NMs) for ratiometric PA imaging of Cu2+. The nanoprobe consists of a selective Cu2+-responsive probe (NRh) as the indicator and a nonresponsive dye (IR) as the internal reference. In the presence of Cu2+, a selective Cu2+-induced structure change of NRh would take place, resulting in the increase of PA signal intensity increment at 716 nm (ΔPA716). However, the ΔPA834 which attributes to IR shows negligible change. Therefore, the ratiometric PA signal (ΔPA716/ΔPA834) could be used as an indicator for Cu2+ detection. This ratiometric PA detection method offers a noninvasive technology with high selectivity and tissue penetration depth, which is a promising tool for deep-tissue detection of Cu2+ in living organisms.Entities:
Keywords: biosensor; copper ion detection; nanotechnology; photoacoustic probe; ratiometric imaging
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Year: 2019 PMID: 30575388 DOI: 10.1021/acsami.8b20113
Source DB: PubMed Journal: ACS Appl Mater Interfaces ISSN: 1944-8244 Impact factor: 9.229