Class information for:
Level 1: SMS THIN FILMS//ALPHA MNSE//MNS

Basic class information
Class id #P Avg. number of
references		 Database coverage
of references
21449 418 20.3 56%


Bar chart of Publication_year

Last years might be incomplete

Hierarchy of classes
The table includes all classes above and classes immediately below the current class.


Cluster id Level Cluster label #P
2 4 MATERIALS SCIENCE, MULTIDISCIPLINARY//PHYSICS, APPLIED//PHYSICS, CONDENSED MATTER 2836879
48 3       THERMOELECTRIC//QUANTUM DOTS//MATERIALS SCIENCE, MULTIDISCIPLINARY 93648
2911 2             FES2//IRON PYRITE//PYRITE 2777
21449 1                   SMS THIN FILMS//ALPHA MNSE//MNS 418

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 SMS THIN FILMS authKW 438301 1% 100% 6
2 ALPHA MNSE authKW 365251 1% 100% 5
3 MNS authKW 312735 5% 20% 21
4 MANGANESE SULFIDE authKW 227246 3% 22% 14
5 GAMMA MNS authKW 194798 1% 67% 4
6 NANO MNS authKW 146100 0% 100% 2
7 SM VALENCE STATES authKW 146100 0% 100% 2
8 GO NPTS MAT SCI address 131488 1% 60% 3
9 ALPHA MNS authKW 109572 1% 50% 3
10 MNSE authKW 93918 1% 43% 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 Physics, Condensed Matter 3053 45% 0% 188
2 Materials Science, Multidisciplinary 792 32% 0% 134
3 Physics, Applied 582 26% 0% 108
4 Materials Science, Coatings & Films 120 4% 0% 18
5 Crystallography 111 5% 0% 21
6 Metallurgy & Metallurgical Engineering 62 5% 0% 21
7 Chemistry, Physical 51 11% 0% 44
8 Nanoscience & Nanotechnology 29 4% 0% 16
9 Physics, Multidisciplinary 28 6% 0% 23
10 Mineralogy 21 1% 0% 5

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 GO NPTS MAT SCI 131488 1% 60% 3
2 CNRS UPR 210 73050 0% 100% 1
3 DEPARMENT PHYS ENGN 73050 0% 100% 1
4 EMERGING NANOSCI SOFT MATTER 73050 0% 100% 1
5 KIRENSKY MET 73050 0% 100% 1
6 LR99ES15 73050 0% 100% 1
7 PHYS THEORY MODELISAT 73050 0% 100% 1
8 PHYSICOCHIM MAT CONDENSEESTL 73050 0% 100% 1
9 SHARED USING KSC 73050 0% 100% 1
10 UMR 5624IFR 73050 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 PHYSICS OF THE SOLID STATE 25172 13% 1% 53
2 FIZIKA TVERDOGO TELA 1906 4% 0% 17
3 TECHNICAL PHYSICS LETTERS 1891 3% 0% 13
4 CHALCOGENIDE LETTERS 943 1% 0% 3
5 TECHNICAL PHYSICS 629 2% 0% 7
6 MATERIALS CHEMISTRY AND PHYSICS 534 2% 0% 10
7 SEMICONDUCTORS 519 2% 0% 7
8 PHYSICA STATUS SOLIDI B-BASIC SOLID STATE PHYSICS 518 3% 0% 12
9 JOURNAL OF CRYSTAL GROWTH 506 4% 0% 15
10 JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS 453 4% 0% 15

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 SMS THIN FILMS 438301 1% 100% 6 Search SMS+THIN+FILMS Search SMS+THIN+FILMS
2 ALPHA MNSE 365251 1% 100% 5 Search ALPHA+MNSE Search ALPHA+MNSE
3 MNS 312735 5% 20% 21 Search MNS Search MNS
4 MANGANESE SULFIDE 227246 3% 22% 14 Search MANGANESE+SULFIDE Search MANGANESE+SULFIDE
5 GAMMA MNS 194798 1% 67% 4 Search GAMMA+MNS Search GAMMA+MNS
6 NANO MNS 146100 0% 100% 2 Search NANO+MNS Search NANO+MNS
7 SM VALENCE STATES 146100 0% 100% 2 Search SM+VALENCE+STATES Search SM+VALENCE+STATES
8 ALPHA MNS 109572 1% 50% 3 Search ALPHA+MNS Search ALPHA+MNS
9 MNSE 93918 1% 43% 3 Search MNSE Search MNSE
10 MNTE 91305 1% 25% 5 Search MNTE Search MNTE

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 HANNACHI, A , SEGURA, A , MAGHRAOUI-MEHERZI, H , (2016) GROWTH OF MANGANESE SULFIDE (ALPHA-MNS) THIN FILMS BY THERMAL VACUUM EVAPORATION: STRUCTURAL, MORPHOLOGICAL AND OPTICAL PROPERTIES.MATERIALS CHEMISTRY AND PHYSICS. VOL. 181. ISSUE . P. 326 -332 25 89% 0
2 HANNACHI, A , HAMMAMI, S , RAOUAFI, N , MAGHRAOUI-MEHERZI, H , (2016) PREPARATION OF MANGANESE SULFIDE (MNS) THIN FILMS BY CHEMICAL BATH DEPOSITION: APPLICATION OF THE EXPERIMENTAL DESIGN METHODOLOGY.JOURNAL OF ALLOYS AND COMPOUNDS. VOL. 663. ISSUE . P. 507 -515 21 70% 1
3 PATHAN, HM , KALE, SS , LOKHANDE, CD , HAN, SH , JOO, OS , (2007) PREPARATION AND CHARACTERIZATION OF AMORPHOUS MANGANESE SULFIDE THIN FILMS BY SILAR METHOD.MATERIALS RESEARCH BULLETIN. VOL. 42. ISSUE 8. P. 1565-1569 18 90% 18
4 PANDEY, G , SHARMA, HK , SRIVASTAVA, SK , KOTNALA, RK , (2011) GAMMA-MNS NANO AND MICRO ARCHITECTURES: SYNTHESIS, CHARACTERIZATION AND OPTICAL PROPERTIES.MATERIALS RESEARCH BULLETIN. VOL. 46. ISSUE 11. P. 1804-1810 24 59% 10
5 CHOWDHURY, MRI , PODDER, J , ISLAM, ABMO , (2011) SYNTHESIS AND CHARACTERIZATION OF MANGANESE SULPHIDE THIN FILMS DEPOSITED BY SPRAY PYROLYSIS.CRYSTAL RESEARCH AND TECHNOLOGY. VOL. 46. ISSUE 3. P. 267-271 16 89% 5
6 VEERAMANIKANDASAMY, T , RAJENDRAN, K , SAMBATH, K , (2014) INFLUENCE OF MN/S MOLAR RATIO ON THE MICROSTRUCTURE AND OPTICAL PROPERTIES OF MNS NANOCRYSTALS SYNTHESIZED BY WET CHEMICAL TECHNIQUE.JOURNAL OF MATERIALS SCIENCE-MATERIALS IN ELECTRONICS. VOL. 25. ISSUE 8. P. 3383 -3388 19 70% 0
7 AMIRAV, L , LIFSHITZ, E , (2015) A SPRAY-BASED TECHNIQUE FOR THE PRODUCTION OF MNS THIN FILMS.CHEMPHYSCHEM. VOL. 16. ISSUE 2. P. 353 -359 25 48% 1
8 SHI, Y , XUE, FH , LI, CY , ZHAO, QD , QU, ZP , (2011) PREPARATION AND HYDROTHERMAL ANNEALING OF PURE METASTABLE BETA-MNS THIN FILMS BY CHEMICAL BATH DEPOSITION (CBD).MATERIALS RESEARCH BULLETIN. VOL. 46. ISSUE 3. P. 483 -486 18 67% 8
9 XIN, Y , CAO, LY , HUANG, JF , LIU, J , FEI, J , YAO, CY , (2013) INFLUENCE OF S/MN MOLAR RATIO ON THE MORPHOLOGY AND OPTICAL PROPERTY OF GAMMA-MNS THIN FILMS PREPARED BY MICROWAVE HYDROTHERMAL.JOURNAL OF ALLOYS AND COMPOUNDS. VOL. 549. ISSUE . P. 1-5 16 70% 4
10 MITA, Y , KAGAYAMA, T , ABRAMOVA, GM , PETRAKOVSKII, GA , SOKOLOV, VV , (2013) METALLIC TRANSITION OF THE COLOSSAL MAGNETORESISTANCE MATERIAL FE (X) MN1-X S (X=0.18) UNDER HIGH PRESSURE.JOURNAL OF THE KOREAN PHYSICAL SOCIETY. VOL. 63. ISSUE 3. P. 325-328 12 92% 0

Classes with closest relation at Level 1


Rank Class id link
1 19287 NICKEL SULFIDE//NICKEL SULPHIDE//NISE2
2 1044 CD1 XMNXTE//DILUTED MAGNETIC SEMICONDUCTORS//EXCITON MAGNETIC POLARON
3 36119 FINE MAGNETIC PANICLES//MULTILEG LADDER//MULTILEG TUBE
4 35558 AB INITIO CALCULATIONS COMPUTER MODELING AND SIMULATION//MOLECULAR FIELD EFFECT TRANSISTOR//N INP FILM
5 19333 MGS//BARIUM CHALCOGENIDES//MAGNESIUM CHALCOGENIDES
6 36844 DEGENERATE QUANTUM BOSE GAS//MOLNIYA DESIGN//ANALYTICAL METHOD FOR SOLVING THE SKIN EFFECT PROBLEM
7 15157 MOLYBDENUM DISULFIDE//MOS2//FEW LAYER MOLYBDENUM DISULFIDE
8 35077 AGCRS2//CUCRS2//LAYERED CHROMIUM COPPER DISULFIDES
9 12933 YBB12//SMB6//KONDO INSULATOR
10 23541 SHEET TYPE//CONCENTRATION OF NANOPARTICLES//IRON FERRITE NANOPARTICLES

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