| 1 - 21 |
Analytical solutions for fast and straightforward study of the effect of the electrode geometry in transient and steady state voltammetries: Single- and multi-electron transfers, coupled chemical reactions and electrode kinetics
Molina A, Gonzalez J, Laborda E, Compton RG |
| 22 - 29 |
Simultaneous determination of uric acid, xanthine and hypoxanthine based on sulfonic groups functionalized nitrogen-doped graphene
Luo A, Lian QW, An ZZ, Li Z, Guo YY, Zhang DX, Xue ZH, Zhou XB, Lu XQ |
| 30 - 35 |
Preparation of green luminescence composite film and study of electrofluorochromic performance
Gao WM, Zheng DM, Dong ZJ, Wu LX, Bi LH |
| 36 - 42 |
Investigation on redox mechanism of 1,4-naphthoquinone by in situ FT-IR spectroelectrochemistry
Chen J, Jin BK |
| 43 - 48 |
Electrochemical immunosensor for Enterobacter sakazakii detection based on electrochemically reduced graphene oxide-gold nanoparticle/ionic liquid modified electrode
Hu X, Dou WC, Zhao GY |
| 49 - 55 |
New synthesis of self-assembly ionic liquid functionalized reduced graphene oxide-gold nanoparticle composites for electrochemical determination of Sudan I
Wang ML, Chen ZN, Chen YM, Zhan CJ, Zhao JW |
| 56 - 60 |
Enhanced electrochemical performance of LiFe0.4Mn0.6(PO4)(1-x)(BO3)(x) as cathode material for lithium ion batteries
Sin BC, Singh L, Lee KE, Kim M, Cho M, Yarger JL, Woo SK, Lee HI, Lee Y |
| 61 - 68 |
The effect of electrode size and surface heterogeneity on electrochemical properties of ultrananocrystalline diamond microelectrode
Dutta G, Siddiqui S, Zeng HJ, Carlisle JA, Arumugam PU |
| 69 - 76 |
Oxygen electroreduction on MN4-macrocycle modified graphene/multi-walled carbon nanotube composites
Turk KK, Kruusenberg I, Mondal J, Rauwel P, Kozlova J, Matisen L, Sammelselg V, Tammeveski K |
| 77 - 83 |
Assembly of magnetic nanoparticles at a liquid/liquid interface. Catalytic effect on ion transfer process
Camara CI, Monzon LMA, Coey JMD, Yudi LM |
| 84 - 93 |
Poly-L-lysine-modified boron-doped diamond electrodes for the amperometric detection of nucleic acid bases
Niedzialkowski P, Ossowski T, Zieba P, Cirocka A, Rochowski P, Pogorzelski SJ, Ryl J, Sobaszek M, Bogdanowicz R |
| 94 - 100 |
High performance electrochemical capacitor based on MnCo2O4 nanostructured electrode
Venkatachalam V, Alsalme A, Alghamdi A, Jayavel R |
| 101 - 107 |
The enzyme electrocatalytic immunosensor based on functional composite nanofibers for sensitive detection of tumor suppressor protein p53
Wang XY, Gao CC, Shu GF, Wang YJ, Liu XG |
| 108 - 117 |
Batch and continuous flow anodic oxidation of 2,4-dinitrophenol: Modeling, degradation pathway and toxicity
Pillai IMS, Gupta AK |
| 118 - 123 |
Microfluidic multiplex biochip based on a point-of-care electrochemical detection system for matrix metalloproteinases
Hwang SY, Seo IJ, Lee SY, Ahn Y |
| 124 - 130 |
Thermodynamic aspects of hydrogen electrosorption into Pd-Rh alloys
Koss U, Lukaszewski M, Hubkowska K, Czerwinski A |
| 131 - 139 |
Isopolymolybdate adsorption as related to inhibition and self-inhibition of electrode processes
Pugolovkin LV, Borzenko MI, Tsirlina GA |
| 140 - 146 |
Peculiarities in the electrocatalytic behavior of ultralow platinum deposits on gold synthesized by galvanic displacement
Podlovchenko BI, Maksimov YM |
| 147 - 152 |
An electrochemical biosensor for highly sensitive determination of microRNA based on enzymatic and molecular beacon mediated strand displacement amplification
Wang MN, Shen B, Yuan R, Cheng W, Xu HB, Ding SJ |
| 153 - 160 |
Development of a glucose biosensor based on electrodeposited gold nanoparticles-polyvinylpyrrolidone-polyaniline nanocomposites
Miao ZL, Wang PY, Zhong AM, Yang MF, Xu Q, Hao SR, Hu XY |
| 161 - 170 |
Electrochemical study on the intercalation properties of hydroxyl anion for the reversible conversion of graphene quantum dots into carbon dots
Doroodmand MM, Deylaminezhad M |
| 171 - 178 |
Electrochemical detection of free chlorine at inkjet printed silver electrodes
Jovic M, Cortes-Salazar F, Lesch A, Amstutz V, Bi HY, Girault HH |
| 179 - 185 |
Electrochemical and surface characterization of composite material: Polyaniline/LiMn2O4
Harfouche N, Nessark B, Perrin FX |
| 186 - 192 |
Flower-like Co nano-particles deposited on Ni foam substrate as efficient noble metal-free catalyst for hydrazine oxidation
Yang F, Cheng K, Wang GL, Cao DX |
| 193 - 200 |
Simultaneous electroanalysis of hydroquinone and catechol at poly(brilliant blue) modified carbon paste electrode: A voltammetric study
Ganesh PS, Swamy BEK |
| 201 - 206 |
Antimony doped tin oxide applied in the gas diffusion layer for proton exchange membrane fuel cells
Hao JK, Yu SC, Jiang YY, Li XJ, Shao ZG, Yi BL |
| 207 - 211 |
Free Zn2+ determination in systems with Zn-Glutathione
Lao M, Dago A, Serrano N, Companys E, Puy J, Galceran J |
| 212 - 221 |
The electrochemical approach to antioxidant activity assay of metal complexes with dipicolylamine ligand, containing 2,6-di-tert-butylphenol groups, based on electrochemical DPPH-test
Tyurin VY, Moiseeva AA, Shpakovsky DB, Milaeva ER |
| 222 - 223 |
Comment on "Facile chemical bath deposition of CuS nano peas like structure as a high efficient counter electrode for quantum-dot-sensitized solar cells" by H.-J. Kim, J.-H. Kim, C. SS P. Kumar, D. Punnoose, S.-K. Kim, CVVM Gopi, S. S. Rao, Journal of Electroanalytical Chemistry, DO!: 10.1016/j.jelechem.2014.12.016
Dao VD |
| 224 - 225 |
Reply to "Comment on "Facile chemical bath deposition of CuS nano peas like structure as a high efficient counter electrode for quantum-dot-sensitized solar cells" by H.-J. Kim, J.-H. Kim, CH. S. S. Pavan Kumar, D. Punnoose, S.-K. Kim, C. V. V. M. Gopi, S. S. Rao, Journal of Electroanalytical Chemistry, DOI: 10.1016/j.jelechem.2014.12.016"
Kim HJ, Kim JH, Kumar CHSSP, Punnoose D, Kim SK, Gopi CVVM, Rao SS |
