Journal ArticleDOI
A polymer/semiconductor write-once read-many-times memory
TLDR
The results indicate that the hybrid organic/inorganic memory device is a reliable means for achieving rapid, large-scale archival data storage for ultralow-cost permanent storage of digital images, eliminating the need for slow, bulky and expensive mechanical drives used in conventional magnetic and optical memories.Abstract:
Organic devices promise to revolutionize the extent of, and access to, electronics by providing extremely inexpensive, lightweight and capable ubiquitous components that are printed onto plastic, glass or metal foils1,2,3. One key component of an electronic circuit that has thus far received surprisingly little attention is an organic electronic memory. Here we report an architecture for a write-once read-many-times (WORM) memory, based on the hybrid integration of an electrochromic polymer with a thin-film silicon diode deposited onto a flexible metal foil substrate. WORM memories are desirable for ultralow-cost permanent storage of digital images, eliminating the need for slow, bulky and expensive mechanical drives used in conventional magnetic and optical memories. Our results indicate that the hybrid organic/inorganic memory device is a reliable means for achieving rapid, large-scale archival data storage. The WORM memory pixel exploits a mechanism of current-controlled, thermally activated un-doping of a two-component electrochromic conducting polymer.read more
Citations
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Journal ArticleDOI
A fast, high-endurance and scalable non-volatile memory device made from asymmetric Ta2O5−x/TaO2−x bilayer structures
Myoung-Jae Lee,Chang Bum Lee,Dongsoo Lee,Seung Ryul Lee,Man Chang,Ji-Hyun Hur,Young-Bae Kim,Chang-Jung Kim,David H. Seo,Sunae Seo,U-In Chung,In-Kyeong Yoo,Kinam Kim +12 more
TL;DR: This work demonstrates a TaO(x)-based asymmetric passive switching device with which it was able to localize resistance switching and satisfy all aforementioned requirements, and eliminates any need for a discrete transistor or diode in solving issues of stray leakage current paths in high-density crossbar arrays.
Journal ArticleDOI
Color Control in π-Conjugated Organic Polymers for Use in Electrochromic Devices
Journal ArticleDOI
Complementary resistive switches for passive nanocrossbar memories
TL;DR: A complementary resistive switch is introduced that consists of two antiserial memristive elements and allows for the construction of large passive crossbar arrays by solving the sneak path problem in combination with a drastic reduction of the power consumption.
Journal ArticleDOI
Understanding the phase-change mechanism of rewritable optical media.
Alexander V. Kolobov,Paul Fons,Anatoly I. Frenkel,A. L. Ankudinov,Junji Tominaga,Tomoya Uruga +5 more
TL;DR: It is demonstrated that, different from the current consensus, Ge2Sb2Te5, the material of choice in DVD-RAM, does not possess the rocksalt structure but more likely consists of well-defined rigid building blocks that are randomly oriented in space consistent with cubic symmetry.
Journal ArticleDOI
25th Anniversary Article: A Decade of Organic/Polymeric Photovoltaic Research
TL;DR: This review article takes a retrospective look at the research and development of OPV, and focuses on recent advances of solution-processed materials and devices during the last decade, particular the polymer version of the materials and Devices.
References
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Poly(3,4‐ethylenedioxythiophene) and Its Derivatives: Past, Present, and Future
TL;DR: An overview of 3,4-ethylenedioxythiophene (PEDT) and its derivatives can be found in this article, along with a description of the broad array of properties accessible and a set of the more prominent applications in which they can be utilized.
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Small molecular weight organic thin-film photodetectors and solar cells
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Electrochromic and highly stable poly(3,4-ethylenedioxythiophene) switches between opaque blue-black and transparent sky blue
TL;DR: The synthesis and properties of poly(3,4-ethylenedioxythiophene) (PEDOT) are reported in this article, where the authors show that PEDOT shows a low band-gap, 0.5 eV lower than that of polythiophene.
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High-performance all-polymer integrated circuits
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Photoelectron spectroscopy of thin films of PEDOT-PSS conjugated polymer blend: A mini-review and some new results
TL;DR: In this paper, the authors present an overview of the photoelectron spectroscopy studies of thin films of the commercially important, electrically conducting polymer blend poly(3,4-ethylenedioxythiophene) oxidized with poly(4-styrenesulfonate), PEDOT-PSS.