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A type of thermoelectric ionogels with convertible n‐p thermopowers are demonstrated with Seebeck coefficients ranging from ‐3.61 to +9.74 mV K−1. Thus, thermoelectric gating organic electrochemical transistor is achieved by employing ionogel as thermoelectric modules and ionic dielectrics simultaneously, paving the road to self‐powered, highly ...
Xingyu Hu +8 more
wiley +1 more source
Functional Divergence and Emerging Roles of the ANO-TMC-TMEM63 Channel Families in Olfaction and Gustation. [PDF]
Kim H.
europepmc +1 more source
Solute flux through a fluctuating membrane channel. [PDF]
Berezhkovskii AM, Bezrukov SM.
europepmc +1 more source
Ion Channel-Targeting Toxins: Structural Mechanisms of Activation, Inhibition, and Therapeutic Potential. [PDF]
Aoki-Shioi N +3 more
europepmc +1 more source
Ion channel gating: insights via molecular simulations
Ion channels are gated, i.e. they can switch conformation between a closed and an open state. Molecular dynamics simulations may be used to study the conformational dynamics of ion channels and of simple channel models.
Oliver Beckstein +2 more
exaly +2 more sources
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Electromagnetic gating in ion channels
Journal of Theoretical Biology, 1992There have been many attempts to develop a theoretical explanation of the phenomena of electromagnetic field interactions with biological systems. None of the reported efforts have been entirely successful in accounting for the observed experimental results, in particular with respect to the reports of interactions between extremely low frequency (ELF)
B R, McLeod, A R, Liboff, S D, Smith
openaire +2 more sources
Angewandte Chemie International Edition, 2001
Ion channels are at the heart of many biological processes such as nerve activity and muscle contraction. How are their impressive ion selectivity and highly specialized gating brought about? In recent years, X-ray crystallography and high-resolution electron microscopy, as well as photo-affinity labeling and site-specific mutagenesis techniques in ...
Ferdinand, Hucho, Christoph, Weise
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Ion channels are at the heart of many biological processes such as nerve activity and muscle contraction. How are their impressive ion selectivity and highly specialized gating brought about? In recent years, X-ray crystallography and high-resolution electron microscopy, as well as photo-affinity labeling and site-specific mutagenesis techniques in ...
Ferdinand, Hucho, Christoph, Weise
openaire +2 more sources
Palladium(ii)-gated ion channels
Chemical Communications, 2008A simple ion channel has been developed that can be created or disassembled through the addition or removal of palladium(II).
Wilson, Craig P. +1 more
openaire +2 more sources

