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Organic-inorganic electronics

IBM Journal of Research and Development, 2001
Organic-inorganic hybrid materials enable the integration of useful organic and inorganic characteristics within a single molecular-scale composite. Unique electronic and optical properties have been observed, and many others can be envisioned for this promising class of materials. In this paper, we review the crystal structures and physical properties
David B. Mitzi   +2 more
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Electronic properties of spiro compounds for organic electronics

The Journal of Chemical Physics, 2012
The electronic properties of p-type, n-type, and ambipolar spiro materials have been investigated using a combination of photoemission spectroscopy, electron energy-loss spectroscopy, and density functional based calculations. Our results provide insight into the occupied density of states as well as the electronic excitation spectra.
Benjamin, Mahns   +8 more
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Electron transporting semiconducting polymers in organic electronics

Chemical Society Reviews, 2011
Significant progress has been achieved in the preparation of semiconducting polymers over the past two decades, and successful commercial devices based on them are slowly beginning to enter the market. However, most of the conjugated polymers are hole transporting, or p-type, semiconductors that have seen a dramatic rise in performance over the last ...
Xingang, Zhao, Xiaowei, Zhan
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n‐Type Organic Semiconductors in Organic Electronics

Advanced Materials, 2010
AbstractOrganic semiconductors have been the subject of intensive academic and commercial interest over the past two decades, and successful commercial devices incorporating them are slowly beginning to enter the market. Much of the focus has been on the development of hole transporting, or p‐type, semiconductors that have seen a dramatic rise in ...
John E, Anthony   +4 more
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Thiazole‐Based Organic Semiconductors for Organic Electronics

Advanced Materials, 2012
AbstractOver the past two decades, organic semiconductors have been the subject of intensive academic and commercial interests. Thiazole is a common electron‐accepting heterocycle due to electron‐withdrawing nitrogen of imine (C=N), several moieties based on thiazole have been widely introduced into organic semiconductors, and yielded high performance ...
Yuze, Lin   +3 more
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Organic Electronics

2020
Abstract Organic electronics is a platform for very low cost and high performance optoelectronic and electronic devices that cover large areas, are lightweight, and can be both flexible and conformable to irregularly shaped surfaces such as foldable smart phones. Organics are at the core of the global organic light emitting device (OLED)
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Organic materials for printed electronics

Nature Materials, 2007
Organic materials can offer a low-cost alternative for printed electronics and flexible displays. However, research in these systems must exploit the differences - via molecular-level control of functionality - compared with inorganic electronics if they are to become commercially viable.
M, Berggren, D, Nilsson, N D, Robinson
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Nanoimprint lithography for organic electronics

Microelectronic Engineering, 2002
Thin films made of organic semiconductors (-sexithiophene, PDAS and PBAS) have been printed and the impact on morphology studied by optical, atomic force and electron microscopy. Surfaces in contact with the stamp during printing undergo a change towards smoother and more ordered material at the macromolecular scale. Interdigitated nanoelectrodes to be
Clavijo Cedeno C   +13 more
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Organic Electronics for Artificial Touch

Trends in Neurosciences, 2018
Artificial restoration of touch is an active area of research in neuroprosthetics. However, most approaches do not consider emulating the biological machinery they intend to replace. Recently, Kim et al. proposed a bioinspired artificial touch transducer that closely mimics the behavior of natural sensory afferents.
Christopher, Black   +2 more
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Organic Electronics

2006
I. MATERIALS High-performance Organic Semiconductor Materials - Ian McCulloch (Imperial College, London) Electroactive Polymer Thin Films - Dean DeLongchamp (NIST) Materials for Large-area Electronics - Alberto Salleo (Stanford University) Functional Pentacenes - John Anthony (University of Kentucky) Plastic Electronics - Antonio Facchetti ...
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