Partho Adhikary scite author profile

Physiological monitoring sensors have been critical in diagnosing and improving the healthcare industry over the past 30 years, despite various limitations regarding providing differences in signal outputs in response to the changes in the user's body. Four‐dimensional (4D) printing has been established in less than a decade; therefore, it currently offers limited resources and knowledge. Still, the technique paves the way for novel platforms in today's ever‐growing technologies. This innovative paradigm of 4D printing physiological monitoring sensors aspires to provide real‐time and continuous diagnoses. In this perspective, we cover the advancements currently available in the 4D printing industry that has arisen in the last septennium, focusing on the overview of 4D printing, its history, and both wearable and implantable physiological sensing solutions. Finally, we explore the current challenges faced in this field, translational research, and its future prospects. All of these aims highlight key areas of attention that can be applied by future researchers to fully transform 4D printed physiological monitoring sensors into more viable medical products.

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Recent advances on biomechanical motion-driven triboelectric nanogenerators for drug delivery

Adhikary

Mahmud

Solaiman

et al. 2022

Nano Today

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Advanced Design, Fabrication, and Applications of 3D-Printable Piezoelectric Nanogenerators

Mahmud

Adhikary

Zolfagharian

et al. 2022

Electron. Mater. Lett.

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Compressive Properties of Expanded Perlite Based Particulate Composite for the Application in Building Insulation Board

Adhikary

Arifuzzaman

Kabir

2020

JEA

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In this paper, expanded perlite based particulate composites for the application in building insulation board are studied for compressive behaviour. Composites with a density range from 0.452 to 0.640 g/cm3 are manufactured using floatation method by varying binder content (sodium silicate solution and corn starch as binder) and the degree of compaction. Compressive strength and modulus are investigated based on two manufacturing parameters (i.e. Compaction ratio and Water/SSS ratio) and the density of the composites. Compressive strength and modulus were found to be linearly dependent on the density however the trend for compressive strength and modulus were found to be different. The change of compressive modulus with respect to increasing density is found to be different for different compaction ratio which is not significant in the case of compressive strength. The range of specific compressive strength of the composites from 4.27 to 5.08 MPa/(g/cm3) was found to be suitable for the building insulation board application when compared with existing literature.

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Simulation of Loading Effects in Various Shaped Running Specific Prosthetics

Adhikary

Islam

2021

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Partho Adhikary

Advances in 4D‐printed physiological monitoring sensors

Recent advances on biomechanical motion-driven triboelectric nanogenerators for drug delivery

Advanced Design, Fabrication, and Applications of 3D-Printable Piezoelectric Nanogenerators

Compressive Properties of Expanded Perlite Based Particulate Composite for the Application in Building Insulation Board

Simulation of Loading Effects in Various Shaped Running Specific Prosthetics

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