功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2014年
15期
15041-15045
,共5页
李超群%李新海%王志兴%郭华军
李超群%李新海%王誌興%郭華軍
리초군%리신해%왕지흥%곽화군
动力学机理%柠檬酸盐镀镍溶液%镍沉积%中间吸附物
動力學機理%檸檬痠鹽鍍鎳溶液%鎳沉積%中間吸附物
동역학궤리%저몽산염도얼용액%얼침적%중간흡부물
kinetic mechanism%citrate bath%nickel electrodeposition%an intermediate absorbate
应用电化学阻抗谱和动电位极化曲线方法,研究了在柠檬酸钠溶液中镍沉积的电化学行为.通过解析电化学阻抗谱,推导出镍沉积的阴极反应历程:镍沉积过程分两步得到两个电子,其中第一个得电子转移步骤为速率控制步骤,反应中生成了吸附态的电活性中间产物 Ni(OH)ads ,而且以电感的形式影响电极反应的阻抗.从理论上推导了电极反应动力学方程,通过实验验证,得出了动力学参数为:阴极过程 Tafel斜率为0.142 V/dec,表观传递系数=0.49,交换电流密度为7.56×10-6 A/cm2,反应级数为Ni2+=1,在pH 值=2~5的缓冲溶液中,OH -浓度对电极反应速度影响不大,Ni(OH)ads 覆盖率不能忽略,表观活化能平均值为50.3 kJ/mol.
應用電化學阻抗譜和動電位極化麯線方法,研究瞭在檸檬痠鈉溶液中鎳沉積的電化學行為.通過解析電化學阻抗譜,推導齣鎳沉積的陰極反應歷程:鎳沉積過程分兩步得到兩箇電子,其中第一箇得電子轉移步驟為速率控製步驟,反應中生成瞭吸附態的電活性中間產物 Ni(OH)ads ,而且以電感的形式影響電極反應的阻抗.從理論上推導瞭電極反應動力學方程,通過實驗驗證,得齣瞭動力學參數為:陰極過程 Tafel斜率為0.142 V/dec,錶觀傳遞繫數=0.49,交換電流密度為7.56×10-6 A/cm2,反應級數為Ni2+=1,在pH 值=2~5的緩遲溶液中,OH -濃度對電極反應速度影響不大,Ni(OH)ads 覆蓋率不能忽略,錶觀活化能平均值為50.3 kJ/mol.
응용전화학조항보화동전위겁화곡선방법,연구료재저몽산납용액중얼침적적전화학행위.통과해석전화학조항보,추도출얼침적적음겁반응역정:얼침적과정분량보득도량개전자,기중제일개득전자전이보취위속솔공제보취,반응중생성료흡부태적전활성중간산물 Ni(OH)ads ,이차이전감적형식영향전겁반응적조항.종이론상추도료전겁반응동역학방정,통과실험험증,득출료동역학삼수위:음겁과정 Tafel사솔위0.142 V/dec,표관전체계수=0.49,교환전류밀도위7.56×10-6 A/cm2,반응급수위Ni2+=1,재pH 치=2~5적완충용액중,OH -농도대전겁반응속도영향불대,Ni(OH)ads 복개솔불능홀략,표관활화능평균치위50.3 kJ/mol.
Electrochemical behaviour of nickel deposition from sodium citrate solution was investigated by means of electrochemical impedance spectroscopy (EIS)and potentiodynamic polarization test.By analyzing the EIS spectroscopy,the processes of Ni electrodeposition was concluded as follows:in the acidic citrate bath,it in-volves two consecutive one-electron charge transfers reaction in which Ni(OH)ads acts as an intermediate ad-sorbed complex.The rate-determining step was the first electron transfer reaction.The low frequency inductive loop was ascribed to the relaxation of the electrode coverage by an adsorbed intermediate Ni(OH)ads .The kinetic equation of electrode reaction can be proposed from the theoretical views and verified by experiment.The results indicate as follows:the Tafel slope of the cathodic process was 0.142 V/dec,the apparent transfer coefficient was 0.49,the exchange current density was 7.56×10 -6 A/cm2 ,the order of the reaction was 1 with respect to Ni2 + .When the electrolyte pH varies between 2-5,no dependence of cathodic rate constants on pH can be found.The coverage of intermediate Ni(OH)ads can not be ignored,the average value of the apparent activation energy of electrochemical reaction was 50.3 kJ/mol.