Ammar B. Kouki scite author profile

Implantable medical devices have been implemented to provide treatment and to assess in vivo physiological information in humans as well as animal models for medical diagnosis and prognosis, therapeutic applications and biological science studies. The advances of micro/nanotechnology dovetailed with novel biomaterials have further enhanced biocompatibility, sensitivity, longevity and reliability in newly-emerged low-cost and compact devices. Close-loop systems with both sensing and treatment functions have also been developed to provide point-of-care and personalized medicine. Nevertheless, one of the remaining challenges is whether power can be supplied sufficiently and continuously for the operation of the entire system. This issue is becoming more and more critical to the increasing need of power for wireless communication in implanted devices towards the future healthcare infrastructure, namely mobile health (m-Health). In this review paper, methodologies to transfer and harvest energy in implantable medical devices are introduced and discussed to highlight the uses and significances of various potential power sources.

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Analyzing LINC Systems

Birafane¹,

El-Asmar²,

Kouki³

et al. 2010

IEEE Microwave

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Freestanding nanostructures via reactive ion beam angled etching

Atikian

Latawiec

Burek

et al. 2017

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Freestanding nanostructures play an important role in optical and mechanical devices for classical and quantum applications. Here, we use reactive ion beam angled etching to fabricate optical resonators in bulk polycrystalline and single crystal diamond. Reported quality factors are approximately 30 000 and 286 000, respectively. The devices show uniformity across 25 mm samples, a significant improvement over comparable techniques yielding freestanding nanostructures.

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On the Linearity and Efficiency of Outphasing Microwave Amplifiers

Birafane

Kouki

2004

IEEE Trans. Microwave Theory Techn.

120

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Position-Aided mm-Wave Beam Training Under NLOS Conditions

Aviles

Kouki

2016

IEEE Access

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Ammar B. Kouki

Power Approaches for Implantable Medical Devices

Analyzing LINC Systems

Freestanding nanostructures via reactive ion beam angled etching

On the Linearity and Efficiency of Outphasing Microwave Amplifiers

Position-Aided mm-Wave Beam Training Under NLOS Conditions

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