Additively manufactured RF components and modules: Toward empowering the birth of cost-efficient dense and ubiquitous IoT implementations
In this review, the particular importance and associated opportunities of additively
manufactured radiofrequency (RF) components and modules for Internet of Things (IoT) and …
manufactured radiofrequency (RF) components and modules for Internet of Things (IoT) and …
Investigation of the structure–dielectric relationship of polyimides with ultralow dielectric constant and dissipation factors using density functional theory
YC Chen, YC Lin, EC Chang, CC Kuo, M Ueda… - Polymer, 2022 - Elsevier
Polyimides (PIs) possessing both low dielectric constant (D k) and dissipation factor (D f)
remain an intriguing study for the ever-increasing demand for the high frequency …
remain an intriguing study for the ever-increasing demand for the high frequency …
Transformable electrocardiograph using robust liquid–solid heteroconnector
M Takaya, R Matsuda, G Inamori, U Kamoto… - Acs …, 2021 - ACS Publications
In this study, a highly transformable electrocardiograph that can considerably deform the
position of stretchable electrodes based on the lead method for diagnosing heart disease …
position of stretchable electrodes based on the lead method for diagnosing heart disease …
Super-stretchable metallic interconnects on polymer with a linear strain of up to 100%
Metal interconnects in flexible and wearable devices are heterogeneous metal-polymer
systems that are expected to sustain large deformation without failure. The principal strategy …
systems that are expected to sustain large deformation without failure. The principal strategy …
On the deformation mechanisms and electrical behavior of highly stretchable metallic interconnects on elastomer substrates
Flexible metallic interconnects are highly important in the emerging field of
deformable/wearable electronics. In our previous work [Arafat et al., Appl. Phys. Lett. 107 …
deformable/wearable electronics. In our previous work [Arafat et al., Appl. Phys. Lett. 107 …
Self-heating-induced deterioration of electromechanical performance in polymer-supported metal films for flexible electronics
The retention of electrical performance under the combined conditions of mechanical strain
and an electrical current is essential for flexible electronics. Here, we report that even below …
and an electrical current is essential for flexible electronics. Here, we report that even below …
Note: A cubic electromagnetic harvester that convert vibration energy from all directions
We investigate the output performance of a cubic harvester which can scavenge low-
frequency vibration energy from all directions. By adjusting the size and shape of the inside …
frequency vibration energy from all directions. By adjusting the size and shape of the inside …
[HTML][HTML] Microsystems for electromechanical stimulations to engineered cardiac tissues
SM Santoni, T Winston, P Hoang… - Microphysiological …, 2018 - mps.amegroups.org
Thousands of new cases of myocardial infarctions (MI) emerge each year. The destructive
nature of MI can cause irreparable damage to cardiac tissue so severe that 10% of survivors …
nature of MI can cause irreparable damage to cardiac tissue so severe that 10% of survivors …
Springless cubic harvester for converting three dimensional vibration energy
This paper reports the design, fabrication and measurement of a springless cubic energy
harvester. Based on the flexible printed circuits, coils are fabricated onto both sides of the …
harvester. Based on the flexible printed circuits, coils are fabricated onto both sides of the …
A new, low-cost, PDMS metallization process for highly conductive flexible and stretchable electronics
DD Hilbich - 2017 - summit.sfu.ca
This thesis describes a novel microfabrication process to produce thick-film copper
microstructures that are embedded in polydimethylsiloxane (PDMS). This process has …
microstructures that are embedded in polydimethylsiloxane (PDMS). This process has …