C. Krishnamoorthi
Papers
6
Total Citations
121
H-Index
4
About
C. Krishnamoorthi is a distinguished researcher specializing in flexible pressure sensors, wearable electronics, and advanced materials for human-machine interaction systems. His work sits at the critical intersection of materials science, electrical transduction, and biomedical sensing, addressing the growing demand for intelligent sensing solutions in IoT-enabled environments and healthcare monitoring. Krishnamoorthi's most influential contribution, "Development of electrical transduction based wearable tactile sensors for human vital signs monitor" (2021), has garnered 62 citations, establishing him as a leading voice in wearable sensor fundamentals and applications. His prolific review articles on flexible capacitive pressure sensors and MXene-based resistive pressure sensors — accumulating 28 and 20 citations respectively — demonstrate his ability to synthesize rapidly evolving fields and guide future research directions. A particularly notable thread in his recent work involves novel composite materials, including zirconia-PDMS, Nb₂C MXene-polymer, and PDMS-CB-ZnO ternary composites, advancing sensitivity and flexibility in next-generation pressure sensors. These contributions directly support applications in soft robotics, prosthetics, electronic skin, and vital signs monitoring. Krishnamoorthi's growing body of work reflects a researcher steadily shaping the landscape of smart, flexible sensing technologies for real-world human-centered applications.
Research Focus
Key Achievements
Top Papers
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- 3Review of MXene-based Resistance Pressure Sensors for Vital Signs Monitor20 citations · 2022
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