The Long History of Molecular Electronics

Choi, Hyungsub; Mody, Cyrus C. M.

doi:10.1177/0306312708097288

Cited by 73 publications

(11 citation statements)

References 42 publications

(27 reference statements)

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“…In general, recent works on the use of nanoemulsions with EOs as active agents in the control of diseases caused by different agents have reported the diversity of targets and efficiency when compared to other agents already used, as well as their simplicity of production [62,63]. The technology of nanoemulsion production provides several advantages with respect to the dispersed active principle and formulation stability, such as (i) better protection of the active against chemical or biological degradation, (ii) lower probability of creaming or sedimentation of droplets, (iii) greater contact surface of the target with the droplets that contains the active agent, (iv) possibility of dispersion of immiscible substances in a certain solvent, which in the case of EOs is usually water, besides the simplicity of production, (v) low cost of reagents, and (vi) less residual damage to the environment when compared to synthetic products, widely used in modern times [22,27,63].…”

Section: Biological Activities Of Essential Oil Nanoemulsionsmentioning

confidence: 99%

Nanoemulsions of Essential Oils: New Tool for Control of Vector-Borne Diseases and In Vitro Effects on Some Parasitic Agents

Echeverría

Albuquerque

2019

Medicines

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The control of infectious/parasitic diseases is a continuing challenge for global health, which in turn requires new methods of action and the development of innovative agents to be used in its prevention and/or treatment. In this context, the control of vectors and intermediate hosts of etiological agents is an efficient method in the prevention of human and veterinary diseases. In later stages, it is necessary to have bioactive compounds that act efficiently on the agents that produce the disease. However, several synthetic agents have strong residual effects in humans and other animals and cause environmental toxicity, affecting fauna, flora and unbalancing the local ecosystem. Many studies have reported the dual activity of the essential oils (EOs): (i) control of vectors that are important in the cycle of disease transmission, and (ii) relevant activity against pathogens. In general, EOs have an easier degradation and cause less extension of environmental contamination. However, problems related to solubility and stability lead to the development of efficient vehicles for formulations containing EOs, such as nanoemulsions. Therefore, this systematic review describes several studies performed with nanoemulsions as carriers of EOs that have larvicidal, insecticidal, repellent, acaricidal and antiparasitic activities, and thus can be considered as alternatives in the vector control of infectious and parasitic diseases, as well as in the combat against etiological agents of parasitic origin.

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Section: Biological Activities Of Essential Oil Nanoemulsionsmentioning

confidence: 99%

Nanoemulsions of Essential Oils: New Tool for Control of Vector-Borne Diseases and In Vitro Effects on Some Parasitic Agents

Echeverría

Albuquerque

2019

Medicines

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“…New packaging methods such as 3D-stacking will continue the miniaturisation process after solving the associated problems such as high heat density and low manufacturing yield (Das and Markovich 2010;Kyungsu et al 2015;Qiang et al 2012). Nanotechnology especially molecular electronics has a high chance to take over the driver seat for the miniaturisation journey despite its controversial and unfulfilled promises during its up and down in the last 40 years (Choi and Mody 2009;Kelly and Mody 2015). Recent research shows promising results in single-molecular transistor, DNA computing, and nanotube devices that enables followers of molecular electronics to see the light at the end of the long dark tunnel (Boruah and Dutta 2015;Strickland 2016).…”

Section: Disappearing User Interfacesmentioning

confidence: 99%

Towards disappearing user interfaces for ubiquitous computing: human enhancement from sixth sense to super senses

Hui

Sherratt

2016

J Ambient Intell Human Comput

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The enhancement of human senses electronically is possible when pervasive computers interact unnoticeably with humans in ubiquitous computing. The design of computer user interfaces towards ''disappearing'' forces the interaction with humans using a content rather than a menu driven approach, thus the emerging requirement for huge number of non-technical users interfacing intuitively with billions of computers in the Internet of Things is met. Learning to use particular applications in ubiquitous computing is either too slow or sometimes impossible so the design of user interfaces must be naturally enough to facilitate intuitive human behaviours. Although humans from different racial, cultural and ethnic backgrounds own the same physiological sensory system, the perception to the same stimuli outside the human bodies can be different. A novel taxonomy for disappearing user interfaces (DUIs) to stimulate human senses and to capture human responses is proposed. Furthermore, applications of DUIs are reviewed. DUIs with sensor and data fusion to simulate the sixth sense is explored. Enhancement of human senses through DUIs and context awareness is discussed as the groundwork enabling smarter wearable devices for interfacing with human emotional memories.

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“…Molecular electronics, which focuses on the single molecules in the electronic junctions used to make electronic devices, has been extensively studied. Molecular electronics aims at investigating single molecules at electrical junctions for fabricating electronic devices, which has been extensively investigated (Cui, 2001;Choi and Mody, 2009;Herrer et al, 2018). A variety of methods have been developed to measure the electrical properties of single molecules by constructing metal-moleculemetal junctions, including scanning probes techniques such as scanning tunneling microscopy (STM) techniques (Xu and Tao, 2003;Haiss et al, 2006;Venkataraman et al, 2006;Chen et al, 2020;Yu et al, 2020), conducting atomic force microscopy (AFM) (Cui, 2001), mechanically controlled break junctions (MCBJ) (Reed et al, 1997;Smit et al, 2002), and nanoparticle dimers (Dadosh et al, 2005;Fernandez et al, 2014).…”

Section: Introductionmentioning

confidence: 99%

pH-Mediated Single Molecule Conductance of Cucurbit[7]uril

Liang

2020

Front. Chem.

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Recognition tunneling technique owns the capability for investigating and characterizing molecules at single molecule level. Here, we investigated the conductance value of cucurbit[7]uril (CB[7]) and melphalan@CB[7] (Mel@CB[7]) complex molecular junctions by using recognition tunneling technique. The conductances of CB[7] and Mel@CB[7] with different pH values were studied in aqueous media as well as organic solvent. Both pH value and guest molecule have an impact on the conductance of CB[7] molecular junction. The conductances of CB[7] and Mel@CB[7] both showed slightly difference on the conductance under different measurement systems. This work extends the molecular conductance measurement to aqueous media and provides new insights of pH-responsive host-guest system for single molecule detection through electrical measurements.

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The Long History of Molecular Electronics

Cited by 73 publications

References 42 publications

Nanoemulsions of Essential Oils: New Tool for Control of Vector-Borne Diseases and In Vitro Effects on Some Parasitic Agents

Nanoemulsions of Essential Oils: New Tool for Control of Vector-Borne Diseases and In Vitro Effects on Some Parasitic Agents

Towards disappearing user interfaces for ubiquitous computing: human enhancement from sixth sense to super senses

pH-Mediated Single Molecule Conductance of Cucurbit[7]uril

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