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Beyond Earth: Resilience of Quasi‐2D Perovskite Solar Cells in Space
Advanced Materials, EarlyView.In the article (DOI: 10.1002/adma.202520433), Christoph Putz and co‐workers demonstrate rigid quasi‐2D perovskite solar cells operating in low Earth orbit, delivering stable power for more than 100 days under real‐space conditions. In‐orbit performance is correlated with extensive ground‐based thermal and proton‐irradiation studies on rigid and ...
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Trends in Cardiovascular Medicine, 1993
Cardiac chloride channels, once largely ignored, are the subject of renewed exploration. Consequently, their molecular identities and electrophysiologic properties are being defined and have revealed a distinct family of ionic channels capable of uniquely influencing the cardiac action potential.
M J, Ackerman, D E, Clapham
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Cardiac chloride channels, once largely ignored, are the subject of renewed exploration. Consequently, their molecular identities and electrophysiologic properties are being defined and have revealed a distinct family of ionic channels capable of uniquely influencing the cardiac action potential.
M J, Ackerman, D E, Clapham
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Renal Epithelial Chloride Channels
Annual Review of Physiology, 1992The renal epithelium reabsorbs about 99% of the sodium chloride filtered at the glomerulus. Until recently, the specific role of chloride in solute transport by the kidney was given little attention. Rather, chloride was considered as simply the counterion to sodium.
W B, Reeves, T E, Andreoli
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CALCIUM-ACTIVATED CHLORIDE CHANNELS
Annual Review of Physiology, 2005▪ Abstract Calcium-activated chloride channels (CaCCs) play important roles in cellular physiology, including epithelial secretion of electrolytes and water, sensory transduction, regulation of neuronal and cardiac excitability, and regulation of vascular tone.
Criss, Hartzell +2 more
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Current Opinion in Neurobiology, 1993
Cl- channels have various functions such as regulation of cell volume, transepithelial transport, and control of excitability in nerve and muscle. Several different structural classes of Cl- channels have been identified recently by molecular cloning.
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Cl- channels have various functions such as regulation of cell volume, transepithelial transport, and control of excitability in nerve and muscle. Several different structural classes of Cl- channels have been identified recently by molecular cloning.
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Science, 2010
The structure of a chloride transporter and its regulatory domain provides insight into the ion-exchange mechanism.
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The structure of a chloride transporter and its regulatory domain provides insight into the ion-exchange mechanism.
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Science, 1996
Miller explains in his Perspective [also see report by Malashkevich et al . ( p. 761 )] why the new pentameric coiled-coil structure of the extracellular matrix protein COMP is exciting for students of ion channels.
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Miller explains in his Perspective [also see report by Malashkevich et al . ( p. 761 )] why the new pentameric coiled-coil structure of the extracellular matrix protein COMP is exciting for students of ion channels.
openaire +2 more sources