Class information for: |
Basic class information |
Class id | #P | Avg. number of references |
Database coverage of references |
---|---|---|---|
16365 | 658 | 35.8 | 80% |
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 |
246 | 3 | SUPERHYDROPHOBIC//SUPERHYDROPHOBICITY//PICKERING EMULSION | 46848 |
1527 | 2 | FLOW CHEMISTRY//MICROREACTOR//MEMBRANE EMULSIFICATION | 7476 |
16365 | 1 | DIRECT SYNTHESIS//HYDROGEN PEROXIDE DIRECT SYNTHESIS//H2O2 DIRECT SYNTHESIS | 658 |
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 | DIRECT SYNTHESIS | authKW | 536344 | 8% | 22% | 53 |
2 | HYDROGEN PEROXIDE DIRECT SYNTHESIS | authKW | 464050 | 2% | 100% | 10 |
3 | H2O2 DIRECT SYNTHESIS | authKW | 421862 | 2% | 91% | 10 |
4 | CHEM BIOCHEM KBC | address | 417645 | 1% | 100% | 9 |
5 | H2O2 HYDROGENATION | authKW | 371240 | 1% | 100% | 8 |
6 | VINYL ACETATE SYNTHESIS | authKW | 329990 | 1% | 89% | 8 |
7 | OXIDATION OF H 2 TO H2O2 | authKW | 324835 | 1% | 100% | 7 |
8 | PALLADIUM GOLD ALLOY | authKW | 311936 | 2% | 61% | 11 |
9 | DIRECT SYNTHESIS OF HYDROGEN PEROXIDE | authKW | 252646 | 1% | 78% | 7 |
10 | DIRECT HYDROGEN PEROXIDE SYNTHESIS | authKW | 232025 | 1% | 100% | 5 |
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 | Chemistry, Physical | 6765 | 66% | 0% | 434 |
2 | Engineering, Chemical | 2682 | 27% | 0% | 179 |
3 | Chemistry, Applied | 1050 | 12% | 0% | 82 |
4 | Nanoscience & Nanotechnology | 473 | 10% | 0% | 65 |
5 | Chemistry, Multidisciplinary | 439 | 19% | 0% | 125 |
6 | GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY | 426 | 3% | 0% | 23 |
7 | Physics, Atomic, Molecular & Chemical | 124 | 7% | 0% | 44 |
8 | Materials Science, Multidisciplinary | 120 | 13% | 0% | 84 |
9 | Physics, Condensed Matter | 74 | 8% | 0% | 51 |
10 | Engineering, Environmental | 48 | 3% | 0% | 18 |
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 | CHEM BIOCHEM KBC | 417645 | 1% | 100% | 9 |
2 | SUR E STUDIES | 95784 | 4% | 8% | 27 |
3 | DIPARTIMENTO CHIM INORGAN CHIM ANALIT S CANNIZZ | 92810 | 0% | 100% | 2 |
4 | M CONSORTIUM RU MESSINA | 92810 | 0% | 100% | 2 |
5 | IND CHEM REACT ENGN | 88171 | 4% | 8% | 24 |
6 | CARDIFF CATALYSIS | 55415 | 3% | 5% | 22 |
7 | SUSTAINABLE ENERGY CHEM GRP | 52202 | 0% | 38% | 3 |
8 | CALCOLO AD ALTE P TAZ E ORAZIONI PARALLEL | 46405 | 0% | 100% | 1 |
9 | CATALYSIS PETROLQUIM | 46405 | 0% | 100% | 1 |
10 | CEPT CATALYT CHEM ENGN | 46405 | 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 | CATALYSIS TODAY | 13306 | 8% | 1% | 54 |
2 | JOURNAL OF CATALYSIS | 8561 | 7% | 0% | 48 |
3 | CATALYSIS SCIENCE & TECHNOLOGY | 4891 | 3% | 1% | 17 |
4 | CATALYSIS LETTERS | 3598 | 4% | 0% | 24 |
5 | APPLIED CATALYSIS A-GENERAL | 3129 | 4% | 0% | 28 |
6 | CATALYSIS COMMUNICATIONS | 3124 | 3% | 0% | 18 |
7 | JOURNAL OF PHYSICAL CHEMISTRY C | 3044 | 7% | 0% | 46 |
8 | ACS CATALYSIS | 2671 | 2% | 0% | 14 |
9 | TOPICS IN CATALYSIS | 2355 | 2% | 0% | 12 |
10 | CHEMSUSCHEM | 1828 | 2% | 0% | 10 |
Author Key Words |
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 | YI, YH , WANG, L , LI, G , GUO, HC , (2016) A REVIEW ON RESEARCH PROGRESS IN THE DIRECT SYNTHESIS OF HYDROGEN PEROXIDE FROM HYDROGEN AND OXYGEN: NOBLE-METAL CATALYTIC METHOD, FUEL-CELL METHOD AND PLASMA METHOD.CATALYSIS SCIENCE & TECHNOLOGY. VOL. 6. ISSUE 6. P. 1593 -1610 | 130 | 87% | 3 |
2 | EDWARDS, JK , FREAKLEY, SJ , LEWIS, RJ , PRITCHARD, JC , HUTCHINGS, GJ , (2015) ADVANCES IN THE DIRECT SYNTHESIS OF HYDROGEN PEROXIDE FROM HYDROGEN AND OXYGEN.CATALYSIS TODAY. VOL. 248. ISSUE . P. 3 -9 | 64 | 94% | 25 |
3 | GARCIA-SERNA, J , MORENO, T , BIASI, P , COCERO, MJ , MIKKOLA, JP , SALMI, TO , (2014) ENGINEERING IN DIRECT SYNTHESIS OF HYDROGEN PEROXIDE: TARGETS, REACTORS AND GUIDELINES FOR OPERATIONAL CONDITIONS.GREEN CHEMISTRY. VOL. 16. ISSUE 5. P. 2320-2343 | 81 | 75% | 21 |
4 | BIASI, P , MIKKOLA, JP , STERCHELE, S , SALMI, T , GEMO, N , SHCHUKAREV, A , CENTOMO, P , ZECCA, M , CANU, P , RAUTIO, AR , ET AL (2017) REVEALING THE ROLE OF BROMIDE IN THE H2O2 DIRECT SYNTHESIS WITH THE CATALYST WET PRETREATMENT METHOD (CWPM).AICHE JOURNAL. VOL. 63. ISSUE 1. P. 32 -42 | 33 | 97% | 2 |
5 | DITTMEYER, R , GRUNWALDT, JD , PASHKOVA, A , (2015) A REVIEW OF CATALYST PERFORMANCE AND NOVEL REACTION ENGINEERING CONCEPTS IN DIRECT SYNTHESIS OF HYDROGEN PEROXIDE.CATALYSIS TODAY. VOL. 248. ISSUE . P. 149 -159 | 54 | 86% | 17 |
6 | DEGUCHI, T , YAMANO, H , TAKENOUCHI, S , IWAMOTO, M , (2016) CATALYSTS FOR DIRECT H2O2 SYNTHESIS TAKING ADVANTAGE OF THE HIGH H-2 ACTIVATING ABILITY OF PT: KINETIC CHARACTERISTICS OF PT CATALYSTS AND NEW ADDITIVES FOR IMPROVING H2O2 SELECTIVITY.CATALYSIS SCIENCE & TECHNOLOGY. VOL. 6. ISSUE 12. P. 4232 -4242 | 51 | 94% | 1 |
7 | SAMANTA, C , (2008) DIRECT SYNTHESIS OF HYDROGEN PEROXIDE FROM HYDROGEN AND OXYGEN: AN OVERVIEW OF RECENT DEVELOPMENTS IN THE PROCESS.APPLIED CATALYSIS A-GENERAL. VOL. 350. ISSUE 2. P. 133-149 | 66 | 67% | 187 |
8 | LI, J , YOSHIZAWA, K , (2015) MECHANISTIC ASPECTS IN THE DIRECT SYNTHESIS OF HYDROGEN PEROXIDE ON PDAU CATALYST FROM FIRST PRINCIPLES.CATALYSIS TODAY. VOL. 248. ISSUE . P. 142 -148 | 48 | 96% | 4 |
9 | GEMO, N , MENEGAZZO, F , BIASI, P , SARKAR, A , SAMIKANNU, A , RAUT, DG , KORDAS, K , RAUTIO, AR , MOHL, M , BOSTROM, D , ET AL (2016) TIO2 NANOPARTICLES VS. TIO2 NANOWIRES AS SUPPORT IN HYDROGEN PEROXIDE DIRECT SYNTHESIS: THE INFLUENCE OF N AND AU DOPING.RSC ADVANCES. VOL. 6. ISSUE 105. P. 103311 -103319 | 51 | 91% | 0 |
10 | OUYANG, L , TIAN, PF , DA, GJ , XU, XC , AO, C , CHEN, TY , SI, R , XU, J , HAN, YF , (2015) THE ORIGIN OF ACTIVE SITES FOR DIRECT SYNTHESIS OF H2O2 ON PD/TIO2 CATALYSTS: INTERFACES OF PD AND PDO DOMAINS.JOURNAL OF CATALYSIS. VOL. 321. ISSUE . P. 70 -80 | 53 | 69% | 13 |
Classes with closest relation at Level 1 |