Journal of Solid State Electrochemistry - Classification scheme (ordered)

Topical areas of our journal are rather diverse. For historical reasons, classification list in Editorial Manager (EM) follows alphabetic listing, and it is sometimes difficult to find necessary item.

In what follows we present the same items arranged according to multilevel scheme. In the first level, this scheme includer general area (Section I), phenomenon or process (Section II), experimental and/or computational technique(s) (Section III), technology and/or device under study (Sections IV, V), and finally material(s) (Sections VI, VII).

All items from the existing classification list are included with their numbers indicated in EM. To balance the scheme, a number of additional items and subsection names are added (in red, no numbers).

The goals of this ordering are further development of classification scheme and analysis of topical dynamics of submitted articles. We are grateful to our readership, authors, and reviewers for any comments on the proposed scheme.

I General topical areas

40: Analytical electrochemistry (the same as 280: Electroanalysis)

321: Electrochemical kinetics

730: Molecular electrochemistry

•830: Organic electrochemistry

1070: Solid state electrochemistry

•520: Glass electrochemistry

•703: Minerals electrochemistry

890: Photoelectrochemistry

1100: Spectroelectrochemistry

50: Applied electrochemistry

•441: Energy storage

•900: Plasma electrochemistry

80: Bioelectrochemistry

•460: Enzyme electrochemistry

•950: Protein electrochemistry

450: Environmental electrochemistry

II Phenomena and Processes

20: Adsorption

431: Electrosorption

1201: Under potential deposition (upd)

430: Electron transfer

590: Ion transfer

200: Corrosion

•143: Cathodic corrosion

•201: Corrosion at high temperatures

•682: Metal oxidation

310: Electrochemical deposition (the same as 410: Electrodeposition)

•821: Nucleation and growth

•531: Growth mechanism

•680: Metal deposition

300: Electrocatalysis

•541: Hydrogen evolution reaction (HER)

•462: Ethanol oxidation reaction

•851: Oxygen evolution reaction (OER)

•861: Oxygen reduction reaction (ORR)

•882: Peroxide reactions

•1216: Water splitting

•111: Carbon dioxide reduction

•801: Nitrate-nitrogen-ammonia electrotransformation

261: Diffusion

•35: Ambipolar diffusion

600: Ionic conduction in solids

572: Intercalation

542: Hydrogen permeation

400: Electrochromism

882: Photocatalysis

893: Photodegradation

51: Artificial photosynthesis

840: Oscillations

1010: Self-organization

101: Bipolar electrochemistry

340: Electrochemistry at high temperatures

630: Magnetic field effects

III Techniques (experimental and computational)

290: Electroanalytical techniques

•10: Ac voltammetry

•221: Cyclic voltammetry

•1140: Stripping voltammetry

•1120: Square-wave voltammetry

•1203:Voltammetry of microparticles (VMP)

•210: Coulometry

•580: Ion sensitive electrodes

•472: Flow injection analysis (FIA)

320: Electrochemical impedance spectroscopy (EIS)

970: Pulse techniques

1183: Thin-layer electrochemistry

983: Rotating disk electrode

411: Electromotive force measurements

330: Electrochemical microscopy (the same as 991: Scanning electrochemical microscopy (SECM))

30: AFM/STM (the same as 992: Scanning probe microscopy (SPM))

991: Scanning tunnelling microscope (STM)

602: Kelvin probe

700: Microbalance

1121: Stress measurements

1172: Thermodynamic measurements

1151: Surface plasmon resonance (SPR)

440: Ellipsometry

1110: Spectroscopy

•560: In situ solid state spectroscopy

•982: Raman spectroscopy

•260: Dielectric spectroscopy

•420: Electron spin resonance

•640: Magnetic resonance

•1081: Solid state NMR (SSNMR)

•721: Mößbauer spectroscopy

•1212: X-ray photoelectron spectroscopy (XPS)

1211: X-ray diffraction (XRD)

790: Neutron diffraction

Modeling and Computation

•1170: Theory (the same as 1180: Theory and simulation)

•980: Quantum chemical calculations

•241: Density functional theory (DFT)

•723: Molecular dynamics (MD)

•733: Monte Carlo (MC)

•761: Multiphysics simulation

•190: Convolution/deconvolution

•191: Computer simulations

•820: Noise analysis

•480: Fractals in electrochemistry

IV Devices

60: Batteries

•610: Lead acid batteries

•1031: Sulfur-batteries (Lithium-sulfur batteries)

•31: Air batteries

••626: Mg-air batteries

••762: Na-air batteries

••1215: Zn-air batteries

••611: Li-air batteries

••621: Li-oxygen batteries

•Metal-ion batteries

••32: Al-ion batteries

••102: Ca-ion batteries

••602: K-ion batteries

••763:Na-ion batteries

••626: Mg-ion batteries

••1216: Zn-ion batteries

••620: Li-ion batteries (LiBs)

••540: High-power lithium batteries

••622: Li protection

••623: Li-rich cathode materials

•1061: Solid state batteries

••33: All solid state LiBs

•61: Battery additives

•911: Polymer batteries

•532: High voltage cathodes

490: Fuel cells

•690: Methanol fuel cell

•461: Ethanol fuel cell

•880: PEM fuel cells

•701: Microbial fuel cells

•1050: Solid oxide fuel cells (SOFC)

••1051: SOFC cathodes

••1052: SOFC anodes

983: Redox flow batteries

1150: Supercapacitors

961: Pseudo supercapacitors

1045: Solid oxide electrolysis cells

Sensors

•931: Potentiometric sensors

•502: Gas sensors

•1090: Solid state sensors

•100: Biosensors

•801: Non-enzymatic sensors

•543: Immunosensor

891: Photovoltaics

•1043: Solar cells

•273: Dye sensitized cells

•601: ITO cells

301: Electrochemical actuators

650: Membranes

1013: Separators

V Technologies and Technological Issues

Surface technologies

•42: Anodization

•683: Metal surface electromodification

•731: Molecular imprinting

•465: Exfoliation (electrochemical exfoliation)

940: Preparation of inorganic solid materials

•51: Ball milling

•542: Hydrothermal synthesis

•1091: Solvothermal synthesis

•1111: Sputtering

•209: Chemical vapour deposition (CVD)

•432: Electrospinning deposits

91: Biomass electrochemical transformation

412: Electrofenton reaction

331: Electrochemical remediation

160: Cell design

1200: Ultrasound

VI Solid Materials and Electrodes

Electrochemistry of elements

•1030: Silver electrodes

•1160: Tellurium electrochemistry

•…. (other elements can be indicated)

Metallic materials

•32: Alloys

••463: Eutectic alloys

•70: Bimetals

110: Carbon

•120: Carbon electrodes

••121: Carbon fiber electrodes

••130: Carbon paste electrodes

••250: Diamond electrodes

••530: Graphite electrodes

•521: Graphene

•522: Graphene oxide

•121: Carbon nanotubes

•101: Boron-doped diamond (BDD)

•231: Diamond films

850: Oxide electrodes

•161: Co oxides

•471: Fe oxides

•800: Ni oxides

•720: MnOx electrodes

•990: Ru oxide electrodes

•1190: Ti oxides

•1210: V oxides

•1211: W oxides

•1215: Zn oxides

•272: Double hydroxides

•1214: Zeolites

•881: Perovskites

570: Inorganic compoundsof molybdenum

571: Inorganic compounds of tungsten

•…. (compounds of other elements can be indicated)

1011: Semiconductors

•1012: Silicon electrodes

•1040: Silver halide electrodes

•670: Metal chalcogenides

••150: CdS

1191: Transparent conducting electrodes (TCE)

722: Modified electrodes

992: Screen printed electrodes

41: Anode materials

141: Cathode materials

140: Catalysts

•391: Electrocatalysts

71: Binders

Low-dimensional materials

•770: Nanoparticles

••981: Quantum dots

•772: Nanorods

•780: Nanowires

•1181: Thick films

•1182: Thin films

701: Microparticles

164: Composite electrodes

166: Composite materials

764: Nanocomposites

771: Nanoporous materials

760: Multiphase electrodes

161: Ceramics

870: Paste electrodes

704: Mixed ionic-electronic conductors

1060: Solid electrolytes (the same as 1080: Solid state ionic conductors)

•144: Cation conductors

•951: Proton conductors

•165: Composite electrolytes

•1046: Solid oxide electrolytes

••852: Oxygen ion conductors

••1213: Yttriastabilised zirconia (YSZ)

••501: Gadolinia doped Ceria (GDC)

•1044: Solid electrolyte interface

631: Magnetic materials

883: Phase diagrams (practically the same as 1173: Thermodynamic properties)

210: Crystal structure

•230: Defect chemistry

•240: Defect electrochemistry

•271: Doping

•1151: Surface morphology - microstructure

641: Materials stability

VII Molecular and softsystems

500: Fullerenes

671: Metal complexes (the same as 831: Organic materials (metal complexes))

930: Polyoxometalates

960: Prussian blue

681: Metal organic frameworks (MOFs)

211: Covalent organic frameworks (COFs)

90: Biomacromolecules

•270: DNA (DNA electrodes)

1000: Self-assembled monolayers (SAM)

624: Liquid-liquid interface

604: Ladder-type materials

170: Conducting polymers

•921: Polyaniline (PANI)

•931: Polythiophene and derivatives

•901: Polycarbazole and derivatives

464: Eutectic solvents

803: Non-classical solvents

732: Molten salt

984: Room temperature ionic liquid (RTIL)

910: Polyelectrolytes

503: Gel electrolytes

1042: Sol-gel films

920: Polymer electrolytes

702: Microdroplets and nanodroplets

162: Chirality