University of Tehran Journal of Computational Applied Mechanics 2423-6713 50 1 2019 06 01 Micro-cantilevered MEMS Biosensor for Detection of Malaria Protozoan Parasites 99 107 69964 10.22059/jcamech.2019.276035.362 EN Kurmendra . Department of Electronics & Communication Engineering, Rajiv Gandhi University (A Central University), Itanagar, India 0000-0003-2770-9418 Jagdeep Rahul Department of Electronics & Communication Engineering, Rajiv Gandhi University (A Central University), Itanagar, India Rajesh Kumar Department of Electronics & Communication Engineering, NERIST, Nirjuli, India Journal Article 2019 01 14 In this paper, the presented work aims to provide a designed model based on Finite element method for detection of Malaria protozoan parasites. Micro-cantilevers are next generation highly efficient biosensors for detection and prevention of any disease. Here, an E-shaped model for micro cantilevered biosensor is designed using COMSOL Multiphysics specifically for detection of Malaria. Microcantilever materials viz Au, Cu, Si and Pt are used for sensing Malaria protozoan with proper optimization of device structure. The studies were carried out for stress developed and displacement occurred due to force applied through these protozoan biomolecules and varying beam length. Further, the designed structure was analyzed for different beam materials available for biosensor and it was found that Au is best suitable material for detection of malaria protozoan parasites since it has best sensitivity profile among presented materials. The results were also verified through analytical approach and it was found that both results obtained through simulation and analytical methods do closely agree with each other. https://jcamech.ut.ac.ir/article_69964_27ab0acba03c00df08093c7cab4c6537.pdf