Surface Plasmon-Coupled Dual Emission Platform for Ultrafast Oxygen Monitoring after SARS-CoV-2 Infection.
Bebeto RaiRobert MalmbergVenkatesh SrinivasanKalathur Mohan GaneshNaga Sai Visweswar KambhampatiAbhay AndarGovind RaoCarani B SanjeeviKoushik VenkatesanSai Sathish RamamurthyPublished in: ACS sensors (2021)
The outbreak of the COVID-19 pandemic has had a major impact on the health and well-being of people with its long-term effect on lung function and oxygen uptake. In this work, we present a unique approach to augment the phosphorescence signal from phosphorescent gold(III) complexes based on a surface plasmon-coupled emission platform and use it for designing a ratiometric sensor with high sensitivity and ultrafast response time for monitoring oxygen uptake in SARS-CoV-2-recovered patients. Two monocyclometalated Au(III) complexes, one having exclusively phosphorescence emission (λPL = 578 nm) and the other having dual emission, fluorescence (λPL = 417 nm) and phosphorescence (λPL = 579 nm), were studied using the surface plasmon-coupled dual emission (SPCDE) platform for the first time, which showed 27-fold and 17-fold enhancements, respectively. The latter complex having the dual emission was then used for the fabrication of a ratiometric sensor for studying the oxygen quenching of phosphorescence emission with the fluorescence emission acting as an internal standard. Low-cost poly (methyl methacrylate) (PMMA) and biodegradable wood were used to fabricate the microfluidic chips for oxygen monitoring. The sensor showed a high sensitivity with a limit of detection ∼ 0.1%. Furthermore, real-time oxygen sensing was carried out and the response time of the sensor was calculated to be ∼0.2 s. The sensor chip was used for monitoring the oxygen uptake in SARS-CoV-2-recovered study participants, to assess their lung function post the viral infection.
Keyphrases
- lung function
- energy transfer
- sars cov
- room temperature
- high throughput
- low cost
- chronic obstructive pulmonary disease
- cystic fibrosis
- solid state
- air pollution
- healthcare
- photodynamic therapy
- respiratory syndrome coronavirus
- public health
- sensitive detection
- mental health
- risk assessment
- coronavirus disease
- prognostic factors
- chronic kidney disease
- gold nanoparticles