Sibasish Dutta scite author profile

Smartphone-based imaging devices (SIDs) have shown to be versatile and have a wide range of biomedical applications. With the increasing demand for high-quality medical services, technological interventions such as portable devices that can be used in remote and resource-less conditions and have an impact on quantity and quality of care. Additionally, smartphone-based devices have shown their application in the field of teleimaging, food technology, education, etc. Depending on the application and imaging capability required, the optical arrangement of the SID varies which enables them to be used in multiple setups like bright-field, fluorescence, dark-field, and multiple arrays with certain changes in their optics and illumination. This comprehensive review discusses the numerous applications and development of SIDs towards histopathological examination, detection of bacteria and viruses, food technology, and routine diagnosis. Smartphone-based devices are complemented with deep learning methods to further increase the efficiency of the devices.

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Smartphone based LSPR sensing platform for bio-conjugation detection and quantification

Dutta

Saikia

Nath

2016

RSC Adv.

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Point of care sensing and biosensing using ambient light sensor of smartphone: Critical review

Dutta¹

2019

TrAC Trends in Analytical Chemistry

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Ground and river water quality monitoring using a smartphone-based pH sensor

Dutta

Sarma

Nath

2015

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We report here the working of a compact and handheld smartphone-based pH sensor for monitoring of ground and river water quality. Using simple laboratory optical components and the camera of the smartphone, we develop a compact spectrophotometer which is operational in the wavelength range of 400-700 nm and having spectral resolution of 0.305 nm/pixel for our equipment. The sensor measures variations in optical absorption band of pH sensitive dye sample in different pH solutions. The transmission image spectra through a transmission grating gets captured by the smartphone, and subsequently converted into intensity vs. wavelengths. Using the designed sensor, we measure water quality of ground water and river water from different locations in Assam and the results are found to be reliable when compared with the standard spectrophotometer tool. The overall cost involved for development of the sensor is relatively low. We envision that the designed sensing technique could emerge as an inexpensive, compact and portable pH sensor that would be useful for in-field applications.

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A naturally occurring diatom frustule as a SERS substrate for the detection and quantification of chemicals

Chamuah

Chetia

Zahan

et al. 2017

J. Phys. D: Appl. Phys.

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Sibasish Dutta

Recent trends in smartphone-based detection for biomedical applications: a review

Smartphone based LSPR sensing platform for bio-conjugation detection and quantification

Point of care sensing and biosensing using ambient light sensor of smartphone: Critical review

Ground and river water quality monitoring using a smartphone-based pH sensor

A naturally occurring diatom frustule as a SERS substrate for the detection and quantification of chemicals

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