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Recent advances in self-assembled monolayers based biomolecular electronic devices
Self-assembled monolayers (SAMs) have aroused much interest due to their potential applications in biosensors, biomolecular electronics and nanotechnology. This has been largely attributed to their inherent ordered arrangement and controllable properties.
Sunil K Arya +2 more
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Bacteriorhodopsin as an electronic conduction medium for biomolecular electronics
Chemical Society Reviews, 2008Interfacing functional proteins with solid supports for device applications is a promising route to possible applications in bio-electronics, -sensors, and -optics. Various possible applications of bacteriorhodopsin (bR) have been explored and reviewed since the discovery of bR.
Yongdong Jin +2 more
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Investigation Methods of Dehydrated Protein Films for Biomolecular Electronics
Lecture Notes in Computer Science, 2022M A Baranov, E N Velichko
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Cryo-Electron Tomography of Reconstituted Biomolecular Condensates
2022The assembly of membraneless compartments by phase separation has recently been recognized as a mechanism for spatial and temporal organization of biomolecules within the cell. The functions of such mesoscale assemblies, termed biomolecular condensates, depend on networks of multivalent interactions between proteins, their structured and disordered ...
Tollervey, Fergus +6 more
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Studies of Biomolecular Nanomaterials for Application in Electronics and Communications
Lecture Notes in Computer Science, 2015Experimental studies of biomolecular materials for goals of biomolecular electronics and communications are discussed. The joint use oflaser correlation spectroscopy and dielectric spectroscopy methods of investigation of electrophysical properties of biomolecular objects in liquid state is considered.
E N Velichko +2 more
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The role of electron capture dissociation in biomolecular analysis
Mass Spectrometry Reviews, 2004AbstractThe introduction of electron capture dissociation (ECD) to electrospray (ESI) Fourier transform ion cyclotron resonance mass spectrometry (FT‐ICR MS) constitutes a significant advance in the structural analysis of biomolecules. The fundamental features and benefits of ECD are discussed in this review.
Helen J, Cooper +2 more
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Biomolecular Electronics in the Twenty-First Century
Applied Biochemistry and Biotechnology, 2001A relentless decrease in the size of silicon-based microelectronics devices is posing problems. The most important among these are limitations imposed by quantum-size effects and instabilities introduced by the effects of thermal fluctuations. These inherent envisaged problems of present-day systems have prompted scientists to look for alternative ...
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Electronic paramagnetism in biomolecular structure and function
American Journal of Physics, 1995Intrinsic paramagnetic states are ubiquitous in biological systems, and extrinsic paramagnetic probes are often introduced in studies of biomolecular structure. The measurements of electron paramagnetic resonance and magnetic susceptibility are commonly employed in investigations of biomolecular paramagnetism.
A. S. Brill +2 more
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Studying biomolecular complexes with pulsed electron–electron double resonance spectroscopy
Biochemical Society Transactions, 2011The function of biomolecules is intrinsically linked to their structure and the complexes they form during function. Techniques for the determination of structures and dynamics of these nanometre assemblies are therefore important for an understanding on the molecular level. PELDOR (pulsed electron–electron double resonance) is a pulsed EPR method that
Gunnar W, Reginsson, Olav, Schiemann
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Towards higher resolution in biomolecular electron microscopy
Ultramicroscopy, 1982Technical advances in electron microscopy have opened up exciting prospects to peer into the finest details of biomolecular organisation. Unfortunately, the potential of today's instruments cannot be fully exploited due to the intrinsic susceptibility of biological specimens to dehydration and electron irradiation.
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