表面技术
錶麵技術
표면기술
SURFACE TECHNOLOGY
2014年
3期
54-58
,共5页
田永常%方小红%潘秉锁%杨凯华
田永常%方小紅%潘秉鎖%楊凱華
전영상%방소홍%반병쇄%양개화
铁电沉积%稳定剂%成核机理%交流阻抗
鐵電沉積%穩定劑%成覈機理%交流阻抗
철전침적%은정제%성핵궤리%교류조항
iron electrodeposition%stabilizing agent%nucleation mechanism%AC impedance spectroscopy
目的:研究稳定剂NH4 HF2对铁电结晶过程的影响。方法采用线性电位扫描伏安法、单电位阶跃计时电流法、电化学交流阻抗谱等技术,研究含不同浓度NH4 HF2的镀铁溶液中,铁在玻碳电极上的电沉积行为。结果随着NH4 HF2浓度的增加,铁沉积的阴极极化变小。在-1.225~-1.300 V阶跃电位范围内,铁在玻碳电极上的电结晶都遵循三维瞬时成核理论,稳定剂浓度的变化不会改变其成核机理。随着NH4 HF2浓度的增加,晶核垂直生长速率和双电层电容明显增大,溶液/电极界面电荷传递电阻显著降低,而溶液电阻呈小幅度降低。结论稳定剂NH4 HF2的加入可促进Fe2+的电沉积,并提高晶核的垂直生长速率。
目的:研究穩定劑NH4 HF2對鐵電結晶過程的影響。方法採用線性電位掃描伏安法、單電位階躍計時電流法、電化學交流阻抗譜等技術,研究含不同濃度NH4 HF2的鍍鐵溶液中,鐵在玻碳電極上的電沉積行為。結果隨著NH4 HF2濃度的增加,鐵沉積的陰極極化變小。在-1.225~-1.300 V階躍電位範圍內,鐵在玻碳電極上的電結晶都遵循三維瞬時成覈理論,穩定劑濃度的變化不會改變其成覈機理。隨著NH4 HF2濃度的增加,晶覈垂直生長速率和雙電層電容明顯增大,溶液/電極界麵電荷傳遞電阻顯著降低,而溶液電阻呈小幅度降低。結論穩定劑NH4 HF2的加入可促進Fe2+的電沉積,併提高晶覈的垂直生長速率。
목적:연구은정제NH4 HF2대철전결정과정적영향。방법채용선성전위소묘복안법、단전위계약계시전류법、전화학교류조항보등기술,연구함불동농도NH4 HF2적도철용액중,철재파탄전겁상적전침적행위。결과수착NH4 HF2농도적증가,철침적적음겁겁화변소。재-1.225~-1.300 V계약전위범위내,철재파탄전겁상적전결정도준순삼유순시성핵이론,은정제농도적변화불회개변기성핵궤리。수착NH4 HF2농도적증가,정핵수직생장속솔화쌍전층전용명현증대,용액/전겁계면전하전체전조현저강저,이용액전조정소폭도강저。결론은정제NH4 HF2적가입가촉진Fe2+적전침적,병제고정핵적수직생장속솔。
Objective To understand the effect of NH4 HF2 on the cathodic process of iron electrodeposition. Methods Linear sweep voltammetry, single-potential step chronoamperometry and AC impedance spectroscopy were adopted to study the electrocrys-tallization of iron in plating solutions containing different concentrations of NH4 HF2 . Results With the increase in the concentration of NH4 HF2 , the cathodic polarization of iron electrodeposition was decreased;in the Step-potential range of-1. 225~ -1. 300 V, the electrocrystallization of iron on glassy carbon electrode followed 3D instantaneous nucleation regardless of the concentration of NH4 HF2; when the concentration of NH4 HF2 increased, the outward growth rate of crystal nucleus and the double layer capacitance were enhanced, however the charge transfer resistance of solution/cathode interface was obviously decreased and the solution resis-tance was slightly declined. Conclusion The addition of NH4 HF2 could accelerate the electrodeposition of iron and increase the out-ward growth rate of crystal.
