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首页> 外文期刊>Advanced Materials for Optics and Electronics >Influence of Spatial Charge Carrier Distribution Near Interface Between Organic Crystal and Water on Electrokinetic Potential
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Influence of Spatial Charge Carrier Distribution Near Interface Between Organic Crystal and Water on Electrokinetic Potential

机译:有机晶体与水界面附近的空间载流子分布对电动势的影响

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The flow of water through a system filled with anthracene crystals was examined. For other materials it is known that the flow causes a difference in the potential and the short-circuit current. We found that this potential, which is the electrokinetic potential, can be described using a strictly determined space charge distribution of charge carriers near the anthracene crystals and a given model of the water flow between the crystals. The aim of this paper is to present the influence of the spatial charge carrier distribution near the crystal surface on the potential and the current. Considering the laminar flow of water, we can estimate the electrokinetic potential and the current which occur because of the movement of carriers. This movement is forced by the water flow. Achieved values of the potential and the current were about 1 V and 1 μA respectively. Theoretical calculations agree with our experimental results
机译:检查了水流过充满蒽晶体的系统的流量。对于其他材料,已知流动会引起电势和短路电流的差异。我们发现,可以使用蒽晶体附近的电荷载流子的严格确定的空间电荷分布以及晶体之间水流的给定模型来描述该电势,即电动势。本文的目的是提出晶体表面附近空间载流子分布对电势和电流的影响。考虑到层流,我们可以估计由于载流子的运动而产生的电动势和电流。水的流动迫使这种运动。达到的电位值和电流分别约为1 V和1μA。理论计算与我们的实验结果一致

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