Class information for: |
Basic class information |
Class id | #P | Avg. number of references |
Database coverage of references |
---|---|---|---|
24532 | 309 | 22.0 | 45% |
Hierarchy of classes |
The table includes all classes above and classes immediately below the current class. |
Cluster id | Level | Cluster label | #P |
---|---|---|---|
12 | 4 | POLYMER SCIENCE//MATERIALS SCIENCE, PAPER & WOOD//CHEMISTRY, PHYSICAL | 1084170 |
706 | 3 | THERMODIFFUSION//SORET COEFFICIENT//TAYLOR DISPERSION | 6087 |
3835 | 2 | HEATED ELECTRODE//THERMOGALVANIC CELLS//THERMOCELL | 910 |
24532 | 1 | THERMOGALVANIC CELLS//THERMOCELL//FUNDAMENTAL ENERGY SCI | 309 |
Terms with highest relevance score |
rank | Term | termType | Chi square | Shr. of publ. in class containing term |
Class's shr. of term's tot. occurrences |
#P with term in class |
---|---|---|---|---|---|---|
1 | THERMOGALVANIC CELLS | authKW | 1094614 | 4% | 92% | 12 |
2 | THERMOCELL | authKW | 878965 | 4% | 68% | 13 |
3 | FUNDAMENTAL ENERGY SCI | address | 821140 | 18% | 15% | 55 |
4 | ELECTROCHEMICAL PELTIER HEAT | authKW | 494097 | 2% | 100% | 5 |
5 | THERMO ELECTROCHEMICAL CELLS | authKW | 494097 | 2% | 100% | 5 |
6 | NITRIDE ION | authKW | 411746 | 2% | 83% | 5 |
7 | ORANGE DYE | authKW | 403507 | 2% | 58% | 7 |
8 | SURFACE NITRIDING | authKW | 254100 | 2% | 43% | 6 |
9 | STANDARD HYDROGEN ELECTRODE | authKW | 222342 | 1% | 75% | 3 |
10 | THERMO ELECTROCHEMICAL | authKW | 222342 | 1% | 75% | 3 |
Web of Science journal categories |
Rank | Term | Chi square | Shr. of publ. in class containing term |
Class's shr. of term's tot. occurrences |
#P with term in class |
---|---|---|---|---|---|
1 | Electrochemistry | 9863 | 48% | 0% | 147 |
2 | Materials Science, Coatings & Films | 1384 | 16% | 0% | 48 |
3 | Chemistry, Physical | 236 | 21% | 0% | 64 |
4 | Materials Science, Multidisciplinary | 191 | 20% | 0% | 62 |
5 | Chemistry, Analytical | 137 | 10% | 0% | 32 |
6 | Thermodynamics | 115 | 6% | 0% | 17 |
7 | Chemistry, Multidisciplinary | 105 | 15% | 0% | 45 |
8 | Nanoscience & Nanotechnology | 56 | 6% | 0% | 17 |
9 | Energy & Fuels | 48 | 5% | 0% | 15 |
10 | Physics, Condensed Matter | 39 | 8% | 0% | 25 |
Address terms |
Rank | Term | Chi square | Shr. of publ. in class containing term |
Class's shr. of term's tot. occurrences |
#P with term in class |
---|---|---|---|---|---|
1 | FUNDAMENTAL ENERGY SCI | 821140 | 18% | 15% | 55 |
2 | KTCS | 197639 | 1% | 100% | 2 |
3 | INNOVAT DEV SCI NEW TECHNOL | 158106 | 1% | 40% | 4 |
4 | ARC EXCELLENCEMAT ELECT SCI | 98819 | 0% | 100% | 1 |
5 | INTELLIGENT POLYMER ARC EXCELLENCE E | 98819 | 0% | 100% | 1 |
6 | KTCSFIZIKAI KEMIAI TANSZEK | 98819 | 0% | 100% | 1 |
7 | MIRCONANO STRUCT OPTOELECT | 98819 | 0% | 100% | 1 |
8 | PROCEDES ELE OCHIMINPTUPS | 98819 | 0% | 100% | 1 |
9 | TTK KTCS FIZ KEM TANSZEK | 98819 | 0% | 100% | 1 |
10 | TTK KTCS FIZIKAI KEM TANSZEK | 98819 | 0% | 100% | 1 |
Journals |
Rank | Term | Chi square | Shr. of publ. in class containing term |
Class's shr. of term's tot. occurrences |
#P with term in class |
---|---|---|---|---|---|
1 | ELECTROCHEMISTRY | 7245 | 4% | 1% | 13 |
2 | DENKI KAGAKU | 7010 | 5% | 1% | 14 |
3 | JOURNAL OF THE ELECTROCHEMICAL SOCIETY | 6959 | 15% | 0% | 46 |
4 | MAGYAR KEMIAI FOLYOIRAT | 3780 | 3% | 0% | 8 |
5 | ELECTROCHIMICA ACTA | 2442 | 8% | 0% | 26 |
6 | JOURNAL OF ELECTROANALYTICAL CHEMISTRY | 2013 | 6% | 0% | 19 |
7 | ELECTROCHEMICAL AND SOLID STATE LETTERS | 1860 | 3% | 0% | 9 |
8 | JOURNAL OF APPLIED ELECTROCHEMISTRY | 1078 | 3% | 0% | 8 |
9 | RUSSIAN ELECTROCHEMISTRY | 986 | 0% | 1% | 1 |
10 | KUWAIT JOURNAL OF SCIENCE & ENGINEERING | 713 | 1% | 0% | 2 |
Author Key Words |
Rank | Term | Chi square | Shr. of publ. in class containing term |
Class's shr. of term's tot. occurrences |
#P with term in class |
LCSH search | Wikipedia search |
---|---|---|---|---|---|---|---|
1 | THERMOGALVANIC CELLS | 1094614 | 4% | 92% | 12 | Search THERMOGALVANIC+CELLS | Search THERMOGALVANIC+CELLS |
2 | THERMOCELL | 878965 | 4% | 68% | 13 | Search THERMOCELL | Search THERMOCELL |
3 | ELECTROCHEMICAL PELTIER HEAT | 494097 | 2% | 100% | 5 | Search ELECTROCHEMICAL+PELTIER+HEAT | Search ELECTROCHEMICAL+PELTIER+HEAT |
4 | THERMO ELECTROCHEMICAL CELLS | 494097 | 2% | 100% | 5 | Search THERMO+ELECTROCHEMICAL+CELLS | Search THERMO+ELECTROCHEMICAL+CELLS |
5 | NITRIDE ION | 411746 | 2% | 83% | 5 | Search NITRIDE+ION | Search NITRIDE+ION |
6 | ORANGE DYE | 403507 | 2% | 58% | 7 | Search ORANGE+DYE | Search ORANGE+DYE |
7 | SURFACE NITRIDING | 254100 | 2% | 43% | 6 | Search SURFACE+NITRIDING | Search SURFACE+NITRIDING |
8 | STANDARD HYDROGEN ELECTRODE | 222342 | 1% | 75% | 3 | Search STANDARD+HYDROGEN+ELECTRODE | Search STANDARD+HYDROGEN+ELECTRODE |
9 | THERMO ELECTROCHEMICAL | 222342 | 1% | 75% | 3 | Search THERMO+ELECTROCHEMICAL | Search THERMO+ELECTROCHEMICAL |
10 | ANODIC SURFACE NITRIDING | 197639 | 1% | 100% | 2 | Search ANODIC+SURFACE+NITRIDING | Search ANODIC+SURFACE+NITRIDING |
Core articles |
The table includes core articles in the class. The following variables is taken into account for the relevance score of an article in a cluster c: (1) Number of references referring to publications in the class. (2) Share of total number of active references referring to publications in the class. (3) Age of the article. New articles get higher score than old articles. (4) Citation rate, normalized to year. |
Rank | Reference | # ref. in cl. |
Shr. of ref. in cl. |
Citations |
---|---|---|---|---|
1 | GUNAWAN, A , LI, HC , LIN, CH , BUTTRY, DA , MUJICA, V , TAYLOR, RA , PRASHER, RS , PHELAN, PE , (2014) THE AMPLIFYING EFFECT OF NATURAL CONVECTION ON POWER GENERATION OF THERMOGALVANIC CELLS.INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER. VOL. 78. ISSUE . P. 423 -434 | 23 | 85% | 5 |
2 | GUNAWAN, A , LIN, CH , BUTTRY, DA , MUJICA, V , TAYLOR, RA , PRASHER, RS , PHELAN, PE , (2013) LIQUID THERMOELECTRICS: REVIEW OF RECENT AND LIMITED NEW DATA OF THERMOGALVANIC CELL EXPERIMENTS.NANOSCALE AND MICROSCALE THERMOPHYSICAL ENGINEERING. VOL. 17. ISSUE 4. P. 304-323 | 19 | 90% | 26 |
3 | WU, J , BLACK, JJ , ALDOUS, L , (2017) THERMOELECTROCHEMISTRY USING CONVENTIONAL AND NOVEL GELLED ELECTROLYTES IN HEAT-TO-CURRENT THERMOCELLS.ELECTROCHIMICA ACTA. VOL. 225. ISSUE . P. 482 -492 | 25 | 57% | 0 |
4 | LAZAR, MA , AL-MASRI, D , MACFARLANE, DR , PRINGLE, JM , (2016) ENHANCED THERMAL ENERGY HARVESTING PERFORMANCE OF A COBALT REDOX COUPLE IN IONIC LIQUID-SOLVENT MIXTURES.PHYSICAL CHEMISTRY CHEMICAL PHYSICS. VOL. 18. ISSUE 3. P. 1404 -1410 | 14 | 67% | 5 |
5 | FANG, Z , (2011) SOME BASIC MATTERS ON THE HEAT EFFECTS AT ELECTRODE-ELECTROLYTE INTERFACES.THERMOCHIMICA ACTA. VOL. 516. ISSUE 1-2. P. 1 -7 | 23 | 59% | 0 |
6 | ALZAHRANI, HAH , BLACK, JJ , GOONETILLEKE, D , PANCHOMPOO, J , ALDOUS, L , (2015) COMBINING THERMOGALVANIC CORROSION AND THERMOGALVANIC REDOX COUPLES FOR IMPROVED ELECTROCHEMICAL WASTE HEAT HARVESTING.ELECTROCHEMISTRY COMMUNICATIONS. VOL. 58. ISSUE . P. 76 -79 | 16 | 73% | 2 |
7 | HE, J , AL-MASRI, D , MACFARLANE, DR , PRINGLE, JM , (2016) TEMPERATURE DEPENDENCE OF THE ELECTRODE POTENTIAL OF A COBALT-BASED REDOX COUPLE IN IONIC LIQUID ELECTROLYTES FOR THERMAL ENERGY HARVESTING.FARADAY DISCUSSIONS. VOL. 190. ISSUE . P. 205 -218 | 16 | 64% | 1 |
8 | ANARI, EHB , ROMANO, M , TEH, WX , BLACK, JJ , JIANG, E , CHEN, J , TO, TQ , PANCHOMPOO, J , ALDOUS, L , (2016) SUBSTITUTED FERROCENES AND IODINE AS SYNERGISTIC THERMOELECTROCHEMICAL HEAT HARVESTING REDOX COUPLES IN IONIC LIQUIDS.CHEMICAL COMMUNICATIONS. VOL. 52. ISSUE 4. P. 745 -748 | 15 | 50% | 6 |
9 | SALAZAR, PF , KUMAR, S , COLA, BA , (2014) DESIGN AND OPTIMIZATION OF THERMO-ELECTROCHEMICAL CELLS.JOURNAL OF APPLIED ELECTROCHEMISTRY. VOL. 44. ISSUE 2. P. 325-336 | 13 | 76% | 12 |
10 | AL MAIMANI, M , BLACK, JJ , ALDOUS, L , (2016) ACHIEVING PSEUDO-'N-TYPE P-TYPE' IN-SERIES AND PARALLEL LIQUID THERMOELECTRICS USING ALL-IRON THERMOELECTROCHEMICAL CELLS WITH OPPOSITE SEEBECK COEFFICIENTS.ELECTROCHEMISTRY COMMUNICATIONS. VOL. 72. ISSUE . P. 181 -185 | 14 | 74% | 0 |
Classes with closest relation at Level 1 |