Statistic electromotive force of solid-state conductor P / polar liquid L / solid-state conductor N capacitor

Subjects: Physics >> Interdisciplinary Physics and Related Areas of Science and Technology submitted time 2023-11-30

Zhengliang Wang Shanfei Cheng Gelin Wang

Abstract：  Based on the energy conversion of the dynamic electric effect from the solid/liquid contact double
electric layer is the dynamic electromotive potential, this paper studies the static appearance and the release of
the electric field energy of the solid/liquid contact double electric layer, so a special capacitor (P/L/N capacitor) of
solid conductor P / polar liquid L / solid conductor N is constructed. The observations based on experiments are as
follows: (i) the contact double electric layer derived from the internal potential difference polarization of the solid
conductor / polar liquid is equivalent to the external electric field polarization of the ordinary capacitor. The
formation process of the contact double electric layer is the spontaneous charging process of the P/L/N capacitor,
and the P/ L/N capacitor still shows the electric field energy of the contact double electric layer. (ii) Because the
polarized external potential difference of the solid conductor / polar liquid contacting the double electric layer is
always less than the internal potential difference, the short-circuit P/L/N capacitor also has a continuous
electromotive force after the discharge, statically releasing the electric field energy contacting the double electric
layer. (iii) The contact double electric layer of solid conductor / polar liquid is produced spontaneously caused by
mutual contact, and it is also a self-organizing process of absorbing the environmental heat energy into the electric
field energy of the contact double electric layer. P/L/N capacitors realize thermoelectric conversion by releasing
the electric field energy of the contact double electric layer. The above-mentioned phenomenon provides the
possibility for the development of self-generated capacitors and self-supplied power supply.
Keywords: Solid conductor/polar liquid; contact with double electric layer; thermoelectric conversion, 

Peer Review Status:Awaiting Review

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