Researchers report a ferroelectric tunnel junction for organic-based memristors having a record-high tunneling electroresistance (TER) at room temperature, which could ensure large data integration density in computers.
![Organic Ferroelectric Tunnel Junction for Memristive Devices [Video]](https://www.advancedsciencenews.com/wp-content/uploads/2018/01/ASN_featured_adfm201703273_001.jpg)
Electronics
Special Issue in Advanced Energy Materials: Renewable Energy Conversion and Storage
Advanced Energy Materials presents this new Special Issue on “Renewable Energy Conversion and Storage”, which comprises of 26 review-type articles that highlight the recent progress made in the field of energy conversion and storage in a renewable manner.
Future Wearable Devices: Responsive, Self-Powered, Flexible
Next-generation electronics should be wearable, versatile, and energy-efficient. A new sensor systems combined with a triboelectric nanogenerator provides an excellent solution.
Self-Healing of a Confined Phase Change Memory Device : One Step Closer to Storage Class Memory
Self-healing of a phase change memory device with a metallic surfactant layer opens up new pathways in storage class memory.
Free Access: The Inaugural Issue of Advanced Theory and Simulations
All articles of the recently published first issue of Advanced Theory and Simulations are freely available for a limited time
Come Celebrate 30 Years of Advanced Materials at NANO2018
Special AM30 Symposium at NANO2018 in Hong Kong.
Data-Driven Efficiency Enhancement
Alco Bio Fuel digitally transform their way of operations. Now, software helps to monitor and fine-tune performance of the generator.
Shape Shifting–3D Self-Shaping for Nanoresolution Architectures
Complex micro and nanodevices are fabricated using a simple strategy that enables sophisticated architectures to be produced.
A Rapidly Self-Healing Polymer for Wearable Devices
Researchers from the Korea Research Institute of Chemical Technology report a novel self-healing polymer that undergoes rapid self-healing by aromatic disulfide metathesis. More than 75% of the initial mechanical properties are restored within only 2 hours, making it a promising material for the wearable electronics industry.
How to “Grow” a Solar Cell
Biophotovoltaic devices by incorporation of oriented Photosystem I via phage display.
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