The combined use of ZnO, Mg, MgO, and silk provides routes to classes of thin-film transistors and mechanical energy harvesters that are soluble in water and biofluids. Experimental and theoretical studies of the operational aspects and dissolution properties of this type of transient electronics technology illustrate its various capabilities. Application opportunities range from resorbable bio...

1 IEETA Institute of Electronics and Informatics Engineering of Aveiro, University of Aveiro, Aveiro, Portugal, 2 DETI Department of Electronics, Telecommunications and Informatics, University of Aveiro, Aveiro, Portugal, 3 Department of Education and Psychology, University of Aveiro, Aveiro, Portugal, 4 Faculty of Medicine, Institute for Biomedical Imaging and Life Sciences, University of Coim...

Biomedical engineering is a very significant research field which bridges the gap between the fundamental engineering knowledge and technology, and clinical practice and application. It includes a broad range of topics, both established and groundbreaking, from biomaterials to tissue engineering and cell engineering; from biomechanics to biomedical physics; from biomedical electronics to biomed...

Due to limited battery capacity, electronics in biomedical devices require low power consumption. On the other hand, biomedical devices that integrate multiple functions like sensing, amplification, signal conditioning, signal processing, data storage, etc. have put a greater constraint on power consumption for each functional unit. This paper presents a low power design of a decimator for a si...

Binary Phase Shift Keying (BPSK) is a promising modulation format for downlink data transmission in inductive biomedical telemetry systems, because it achieves high data rates and power efficiencies and requires simple electronics. In this paper, the Bit Error Rate (BER) performance of a BPSK biomedical telemetry system is investigated under Additive White Gaussian Noise (AWGN) and is found to ...

wileyonlinelibrary.com signifi cantly to advances in the new fi eld of transient electronics. [ 2 ] Research on organic bioelectronics based on silicon nano-membranes, [ 3 ] and peptide templates, [ 4 ] with emphasis on devicetissue interface, has gained tremendous momentum in the last decade. Unlike some biomedical devices such as pacemakers and artifi cial joints that are designed to last for...

One of the fastest growing fields of technology—a field of astounding recent achievements and even more ambitious hopes—is biomedical engineering. Laboratory instrumentation, medical imaging, cardiac pacemakers, artificial limbs, and computer analysis of the human genome are some of its familiar products. Defined as the use of the principles and techniques of engineering to solve problems in bi...

The use of graphene and two-dimensional materials for industrial, scientific, medical applications has recently received an enormous amount attention due to their exceptional physicochemical properties. There have been numerous efforts incorporate these into advanced flexible electronics, especially aimed wearable biomedical applications. Here, recent advances in materials-based electronic sens...

Wearable technologies have been considered as the next-generation electronics in the near future owing to their promising applications in a vast of fields ranging from biomedical/wellness monitors, wearable human-interactive interfaces, to shape-adaptive military and consumer electronics.[1–4] Typically, those electronics are needed to be powered by rechargeable batteries. However, conventional...