Class information for: |
Basic class information |
| Class id | #P | Avg. number of references |
Database coverage of references |
|---|---|---|---|
| 14214 | 784 | 29.9 | 56% |
Hierarchy of classes |
The table includes all classes above and classes immediately below the current class. |
| Cluster id | Level | Cluster label | #P |
|---|---|---|---|
| 5 | 4 | CHEMISTRY, ORGANIC//CHEMISTRY, INORGANIC & NUCLEAR//CHEMISTRY, MULTIDISCIPLINARY | 1745167 |
| 239 | 3 | LIPASE//JOURNAL OF MOLECULAR CATALYSIS B-ENZYMATIC//BIOCATALYSIS | 47598 |
| 1923 | 2 | BAEYER VILLIGER OXIDATION//BAEYER VILLIGER MONOOXYGENASE//CYCLOHEXANONE MONOOXYGENASE | 5838 |
| 14214 | 1 | NADH REGENERATION//COFACTOR REGENERATION//BIOMIMETIC COENZYME | 784 |
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 | NADH REGENERATION | authKW | 338047 | 3% | 35% | 25 |
| 2 | COFACTOR REGENERATION | authKW | 285632 | 4% | 21% | 35 |
| 3 | BIOMIMETIC COENZYME | authKW | 233681 | 1% | 100% | 6 |
| 4 | COENZYME ANALOGUE | authKW | 155783 | 1% | 67% | 6 |
| 5 | HORSE LIVER ALCOHOL DEHYDROGENASE | authKW | 126176 | 1% | 36% | 9 |
| 6 | ARTIFICIAL ELECTRON MEDIATORS | authKW | 116840 | 0% | 100% | 3 |
| 7 | GLUCOSE 6 PHOSPHATE SYNTHESIS | authKW | 116840 | 0% | 100% | 3 |
| 8 | POLYMER BOUND ATP | authKW | 116840 | 0% | 100% | 3 |
| 9 | ELECTROENZYMATIC SYNTHESIS | authKW | 97362 | 1% | 50% | 5 |
| 10 | NAD REGENERATION | authKW | 93465 | 1% | 40% | 6 |
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 | Biotechnology & Applied Microbiology | 3328 | 28% | 0% | 221 |
| 2 | Electrochemistry | 658 | 8% | 0% | 65 |
| 3 | Chemistry, Multidisciplinary | 559 | 20% | 0% | 153 |
| 4 | Biochemistry & Molecular Biology | 452 | 23% | 0% | 183 |
| 5 | Biophysics | 263 | 8% | 0% | 60 |
| 6 | Chemistry, Organic | 187 | 9% | 0% | 67 |
| 7 | Food Science & Technology | 81 | 5% | 0% | 38 |
| 8 | Chemistry, Inorganic & Nuclear | 56 | 4% | 0% | 32 |
| 9 | Engineering, Chemical | 47 | 5% | 0% | 37 |
| 10 | Chemistry, Physical | 36 | 8% | 0% | 62 |
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 | C UN AUM | 38947 | 0% | 100% | 1 |
| 2 | DIPARTIMENTO STUDI CHIM SOSTANZE BIOLOGICAMENTE | 38947 | 0% | 100% | 1 |
| 3 | DIPARTINENTO SCI FARMACOL BIOL CHIM PL | 38947 | 0% | 100% | 1 |
| 4 | ELE OCHIM PROC MEMBRANAIRE | 38947 | 0% | 100% | 1 |
| 5 | ENGN BIOENGN OOKAYAMA MEGURO KU | 38947 | 0% | 100% | 1 |
| 6 | HALL ATWATER CHEM | 38947 | 0% | 100% | 1 |
| 7 | MCGILL ADV MAY | 38947 | 0% | 100% | 1 |
| 8 | MODULE HAUTE TECHNOL | 38947 | 0% | 100% | 1 |
| 9 | PL CHEM BIOTECHNOL COURSE | 38947 | 0% | 100% | 1 |
| 10 | UNITE MICORBIOL ANAEROBIE | 38947 | 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 | ENZYME ENGINEERING | 14748 | 1% | 6% | 6 |
| 2 | BIOELECTROCHEMISTRY AND BIOENERGETICS | 9921 | 3% | 1% | 21 |
| 3 | ENZYME AND MICROBIAL TECHNOLOGY | 7558 | 4% | 1% | 34 |
| 4 | BIOTECHNOLOGY AND BIOENGINEERING | 4764 | 5% | 0% | 38 |
| 5 | JOURNAL OF FERMENTATION TECHNOLOGY | 3863 | 1% | 1% | 9 |
| 6 | RHODIUM EXPRESS | 2595 | 0% | 7% | 1 |
| 7 | ADVANCES IN BIOCHEMICAL ENGINEERING / BIOTECHNOLOGY | 1640 | 0% | 1% | 3 |
| 8 | AGRICULTURAL AND BIOLOGICAL CHEMISTRY | 1404 | 2% | 0% | 16 |
| 9 | BIOCATALYSIS | 1284 | 0% | 2% | 2 |
| 10 | DENKI KAGAKU | 1128 | 1% | 0% | 9 |
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 | ALI, I , KHAN, T , OMANOVIC, S , (2014) DIRECT ELECTROCHEMICAL REGENERATION OF THE COFACTOR NADH ON BARE TI, NI, CO AND CD ELECTRODES: THE INFLUENCE OF ELECTRODE POTENTIAL AND ELECTRODE MATERIAL.JOURNAL OF MOLECULAR CATALYSIS A-CHEMICAL. VOL. 387. ISSUE . P. 86-91 | 40 | 71% | 10 |
| 2 | HOLLMANN, F , ARENDS, IWCE , BUEHLER, K , (2010) BIOCATALYTIC REDOX REACTIONS FOR ORGANIC SYNTHESIS: NONCONVENTIONAL REGENERATION METHODS.CHEMCATCHEM. VOL. 2. ISSUE 7. P. 762 -782 | 82 | 32% | 87 |
| 3 | HOLLMANN, F , SCHMID, A , (2004) ELECTROCHEMICAL REGENERATION OF OXIDOREDUCTASES FOR CELL-FREE BIOCATALYTIC REDOX REACTIONS.BIOCATALYSIS AND BIOTRANSFORMATION. VOL. 22. ISSUE 2. P. 63-88 | 67 | 36% | 60 |
| 4 | ALI, I , GILL, A , OMANOVIC, S , (2012) DIRECT ELECTROCHEMICAL REGENERATION OF THE ENZYMATIC COFACTOR 1,4-NADH EMPLOYING NANO-PATTERNED GLASSY CARBON/PT AND GLASSY CARBON/NI ELECTRODES.CHEMICAL ENGINEERING JOURNAL. VOL. 188. ISSUE . P. 173-180 | 31 | 62% | 15 |
| 5 | DELECOULS-SERVAT, K , BERGEL, A , BASSEGUY, R , (2004) MEMBRANE ELECTROCHEMICAL REACTORS (MER) FOR NADH REGENERATION IN HLADH-CATALYSED SYNTHESIS: COMPARISON OF EFFECTIVENESS.BIOPROCESS AND BIOSYSTEMS ENGINEERING. VOL. 26. ISSUE 4. P. 205-215 | 27 | 90% | 19 |
| 6 | POIZAT, M , ARENDS, IWCE , HOLLMANN, F , (2010) ON THE NATURE OF MUTUAL INACTIVATION BETWEEN [CP*RH(BPY)(H2O)](2+) AND ENZYMES - ANALYSIS AND POTENTIAL REMEDIES.JOURNAL OF MOLECULAR CATALYSIS B-ENZYMATIC. VOL. 63. ISSUE 3-4. P. 149-156 | 28 | 68% | 34 |
| 7 | WALCARIUS, A , NASRAOUI, R , WANG, ZJ , QU, FL , URBANOVA, V , ETIENNE, M , GOLLU, M , DEMIR, AS , GAJDZIK, J , HEMPELMANN, R , (2011) FACTORS AFFECTING THE ELECTROCHEMICAL REGENERATION OF NADH BY (2,2 '-BIPYRIDYL) (PENTAMETHYLCYCLOPENTADIENYL)-RHODIUM COMPLEXES: IMPACT ON THEIR IMMOBILIZATION ONTO ELECTRODE SURFACES.BIOELECTROCHEMISTRY. VOL. 82. ISSUE 1. P. 46-54 | 26 | 74% | 16 |
| 8 | DAMIAN, A , MALOO, K , OMANOVIC, S , (2007) DIRECT ELECTROCHEMICAL REGENERATION OF NADH ON AU, CU AND PT-AU ELECTRODES.CHEMICAL AND BIOCHEMICAL ENGINEERING QUARTERLY. VOL. 21. ISSUE 1. P. 21-32 | 24 | 89% | 20 |
| 9 | WANG, XD , YIU, HHP , (2016) HETEROGENEOUS CATALYSIS MEDIATED COFACTOR NADH REGENERATION FOR ENZYMATIC REDUCTION.ACS CATALYSIS. VOL. 6. ISSUE 3. P. 1880 -1886 | 25 | 57% | 3 |
| 10 | WU, H , TIAN, CY , SONG, XK , LIU, C , YANG, D , JIANG, ZY , (2013) METHODS FOR THE REGENERATION OF NICOTINAMIDE COENZYMES.GREEN CHEMISTRY. VOL. 15. ISSUE 7. P. 1773 -1789 | 49 | 31% | 32 |
Classes with closest relation at Level 1 |