Juan Pastrana scite author profile

Applying flexible materials for energy scavenging from ambient mechanical vibrations is a clean energy solution that can help alleviate electrical power demands in portable devices and wearable electronics. This work presents fundamental studies on a flexible ferroelectret polymer with a strong piezoelectric effect and its interface with self-powered and energy storage systems. A single-layered device with a thickness of 80 μm was used for characterizing the device’s output voltage, current, transferred charge, and energy conversion efficiency. The potential capability of harvesting mechanical energy and delivering to system load is demonstrated by integrating the device into a fully integrated power management system. The theory for determining the harvested energy that is ultimately delivered to external electronic loads (or stored in a battery) is discussed. The maximum power delivery is found to be for a 600 MΩ load, which results in a device power density of 14.0 W/m3 for input mechanical forces with a frequency around 2 Hz.

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Ferroelectret nanogenerators for loudspeaker applications: A comprehensive study

Dsouza

Schyndel

Pastrana

et al. 2020

Journal of Sound and Vibration

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Flexible, self-powered sensors for estimating human head kinematics relevant to concussions

Dsouza

Pastrana

Figueroa

et al. 2022

Sci Rep

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The present work demonstrates the development of a flexible, self-powered sensor patch that can be used to estimate angular acceleration and angular velocity, which are two essential markers for predicting concussions. The device monitors the dynamic strain experienced by the neck through a thin, polypropylene-based ferroelectret nanogenerator that produces a voltage pulse with profile proportional to strain. The intrinsic property of this device to convert mechanical input to electrical output, along with its flexibility and $$\sim$$ ∼ 100 $$\mu$$ μ m thickness makes it a viable and practical device to be used as a wearable patch for athletes in high-contact sports. After processing the dynamic behavior of the produced voltage, a correspondence between the electric signal profile and the measurements from accelerometers integrated inside a human head and neck substitute was found. This demonstrates the ability of obtaining an electronic signature that can be used to extract head kinematics during collision, and creates a marker that could be used to detect concussions. Unlike accelerometer-based current trends on concussion-detection systems, which rely on sensors integrated in the athlete’s helmet, the flexible patch attached to the neck would provide information on the dynamics of the head movement, thus eliminating the potential of false readings from helmet sliding or peak angular acceleration.

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A Simplified Approach for Obtaining Optical Properties of VO₂ Thin Films, and Demonstration of Infrared Shape‐Shifting Devices

Figueroa

Cao

Dsouza

et al. 2019

Adv Materials Technologies

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Micrometer‐sized VO2‐based devices with integrated resistive heaters of different configurations are fabricated. Quality of the VO2 films is confirmed by measuring the characteristic drop in transmittance and negative differential emissivity for these films. A two‐interface model for optical transmittance, reflectance, and absorbance is presented. This method and analytic model presents an advantage over most typically used approaches in that it does not require direct measurements of the material's optical constants to estimate transmittance. By combining the substrate and the VO2 film into one layer with a reduced optical admittance, the two‐interface model is reduced to a single‐layer model. Moreover, the present work demonstrates the implementation of the developed VO2‐based devices in adaptive camouflage and shape‐converting applications. Electrical pulses are used to program different emissivity states to convert geometric shapes inside a fully integrated VO2‐based electro‐optical window. This results in the reconfiguring of thermal images to either create new shapes, or shift from one to another.

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Electrode Effects on Flexible and Robust Polypropylene Ferroelectret Devices for Fully Integrated Energy Harvesters

Pastrana

Dsouza

Cao³

et al. 2020

ACS Appl. Mater. Interfaces

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This work presents a characterization study of the electrode interface in polypropylene ferroelectret nanogenerators. An emphasis is made on the comparison of carbon nanotube fiber electrodes with traditional metallic thin film electrodes. Multiple experiments were performed on samples with the same electrode dimensions for a range of applied pressures. Results showed higher open-circuit voltage peak values for the thin film metal electrodes, regardless of the applied pressure. Interestingly, the difference in short-circuit current values between metal and carbon nanotube-based fiber electrodes was not as significant. The carbon nanotube fiber electrode was further investigated by post-treating the fiber with acetone and comparing the results with untreated carbon nanotube film electrodes and thin film metal electrodes. In an effort to enable a monolithic integration of ferroelectret energy harvesters with flexible energy storage elements, this work also presents studies on generation and leakage of induced free charge in the electrodes of flexible ferroelectret energy harvesters. It was found the current leakage through parasitic elements is a faster process than dipole relaxation in the polypropylene film. Finally, an electrode reliability study shows no significant difference in the electrical output of the devices with metallic thin film electrodes after single folding but shows a significant deterioration after crumpling; meanwhile, these processes had no effect on the performance of similar devices with carbon nanotube fiber-based electrodes.

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Juan Pastrana

Flexible Ferroelectret Polymer for Self-Powering Devices and Energy Storage Systems

Ferroelectret nanogenerators for loudspeaker applications: A comprehensive study

Flexible, self-powered sensors for estimating human head kinematics relevant to concussions

A Simplified Approach for Obtaining Optical Properties of VO₂ Thin Films, and Demonstration of Infrared Shape‐Shifting Devices

Electrode Effects on Flexible and Robust Polypropylene Ferroelectret Devices for Fully Integrated Energy Harvesters

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About

Juan Pastrana

Flexible Ferroelectret Polymer for Self-Powering Devices and Energy Storage Systems

Ferroelectret nanogenerators for loudspeaker applications: A comprehensive study

Flexible, self-powered sensors for estimating human head kinematics relevant to concussions

A Simplified Approach for Obtaining Optical Properties of VO2 Thin Films, and Demonstration of Infrared Shape‐Shifting Devices

Electrode Effects on Flexible and Robust Polypropylene Ferroelectret Devices for Fully Integrated Energy Harvesters

Contact Info

Product

Resources

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A Simplified Approach for Obtaining Optical Properties of VO₂ Thin Films, and Demonstration of Infrared Shape‐Shifting Devices