靜電場包括靜電荷或運動電荷相互作用產(chǎn)生的現(xiàn)象，其中相互作用僅由電荷及其位置引起，而不是由它們的運動引起。《靜電學(xué)雜志》是出版提高靜電學(xué)領(lǐng)域知識的研究成果的主要論壇。我們邀請以下領(lǐng)域的提交：靜電電荷分離過程：材料（固體或液體）如何積聚靜電的基礎(chǔ)科學(xué)，由摩擦電、感應(yīng)、傳導(dǎo)、電暈和雙層電充電或其他機制。靜電耗散和中和。固體電介質(zhì)中的空間電荷。駐極體。控制充電的方法。靜電測量技術(shù)（電荷、表面電位、電場）。粒子、液滴和生物細胞的靜電操縱：粒子上的靜電力，包括電泳、介電泳和電旋轉(zhuǎn)。應(yīng)用，包括靜電除塵器，分離器，涂層工藝和電子照相。流化床和其他固體處理過程中的靜電問題。生物/醫(yī)療應(yīng)用，包括控制生物細胞和藥粉。微流體和微電子機械系統(tǒng)（MEMS）。具有靜電現(xiàn)象基本貢獻的耦合問題（熱、流、應(yīng)力）。靜電驅(qū)動或控制的流體流動：電暈產(chǎn)生的二次電動力流。邊界層控制。電動液壓泵。電流變學(xué)。靜電紡絲和電噴涂。直流和交流電滲透。電潤濕。應(yīng)用包括材料處理、熱管理和流量控制。氣相靜電學(xué)：等離子體的基礎(chǔ)科學(xué)。電暈和介質(zhì)阻擋放電。電氣故障。等離子體技術(shù)的應(yīng)用，包括氣體和液體流的環(huán)境修復(fù)。帶電表面的靜電放電.基本原理、預(yù)防和安全問題大氣中的靜電現(xiàn)象，包括閃電。

The field of electrostatics encompasses phenomena resulting from the interaction of stationary or moving electrical charges, where the interaction is due solely to the charges and their positions and not due to their motion.The Journal of Electrostatics is the leading forum for publishing research findings that advance knowledge in the field of electrostatics. We invite submissions in the following areas:Electrostatic charge separation processes: Fundamental science behind how materials (solid or liquid) accumulate electrostatic charge, by triboelectric, induction, conduction, corona and electrical double layer charging, or other mechanisms. Electrostatic charge dissipation and neutralization. Space charge in solid dielectrics. Electrets. Methods to control charging. Static measurement techniques (charge, surface potential, electric field).Electrostatic manipulation of particles, droplets, and biological cells: Electrostatic forces on particles, including electrophoresis, dielectrophoresis and electrorotation. Applications, including electrostatic precipitators, separators, coating processes, and electrophotography. Electrostatic issues in fluidized beds and other solids handling processes. Biological/medical applications including control of biological cells and pharmaceutical powders. Microfluidics and Microelectromechanical Systems (MEMS). Coupled problems (thermal, flow, stress) with essential contribution of electrostatic phenomena.Electrostatically driven or controlled fluid flow: Corona generated secondary electrohydrodynamic flow. Boundary layer control. Electrohydrodynamic pumping. Electro-rheology. Electrospinning and electrospraying. DC and AC Electroosmosis. Electrowetting. Applications including materials processing, thermal management, and flow control.Electrostatics in the gas phase: Fundamental science of plasmas. Corona and dielectric barrier discharges. Electrical breakdown. Applications of plasma technologies, including environmental remediation of gas and liquid streams. Electrostatic discharges from charged surfaces - fundamentals, prevention, safety issues. Electrostatic phenomena in atmospheres, including lightning.