Issue 119, 2015

Effect of heavy-ion on frequency selectivity of semiconducting polymer/electrolyte heterojunction

Abstract

Heavy ion Nd3+ is introduced into the electrolyte layer to study frequency selectivity of a semiconducting polymer/electrolyte double-layer cell. This cell exhibits long-term depression under low-frequency stimulations and potentiation under high-frequency stimulations by positive triangular pulses, suggesting a conventional learning protocol, i.e., spike-rate-dependent plasticity. The frequency selectivity depends significantly on the input shape due to large ionic size and mass. The input threshold of the frequency selectivity is around the voltage inducing a negative differential resistance (VNDR) influenced by the loading rate. The typical value of VNDR is 0.3 V for a loading rate of 100 V sāˆ’1, but VNDR disappears when the loading rate exceeds 1000 V sāˆ’1. Besides, the frequency selectivity has not been observed under rectangular pulse input. Moreover, the possibility of bidirectional signal transfer has been tested simply by anti-connecting two individual cells. Our study suggests the possibility to realize signal pruning and synthetizing by changing ionic types.

Graphical abstract: Effect of heavy-ion on frequency selectivity of semiconducting polymer/electrolyte heterojunction

Article information

Article type
Paper
Submitted
30 Sep 2015
Accepted
05 Nov 2015
First published
10 Nov 2015

RSC Adv., 2015,5, 98110-98117

Effect of heavy-ion on frequency selectivity of semiconducting polymer/electrolyte heterojunction

W. S. Dong, F. Zeng, S. H. Lu, X. J. Li, C. T. Chang, A. Liu, F. Pan and D. Guo, RSC Adv., 2015, 5, 98110 DOI: 10.1039/C5RA19938G

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