Class information for:
Level 1: INT NANOTECHNOL//GOLD NANOPARTICLES//CIGMH

Basic class information
Class id #P Avg. number of
references		 Database coverage
of references
5829 1570 40.4 89%


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
266 3       SILVER NANOPARTICLES//GOLD NANOPARTICLES//NANOPARTICLES 44159
87 2             GOLD NANOPARTICLES//SILVER NANOPARTICLES//PHOTOTHERMAL THERAPY 26919
5829 1                   INT NANOTECHNOL//GOLD NANOPARTICLES//CIGMH 1570

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 INT NANOTECHNOL address 363924 6% 19% 98
2 GOLD NANOPARTICLES authKW 160508 17% 3% 260
3 CIGMH address 80265 1% 24% 17
4 DNA MATERIALS authKW 58343 0% 100% 3
5 DNA PROGRAMMABLE ASSEMBLY authKW 58343 0% 100% 3
6 SERV PHYS SYST COMPLEXES MECAN STAT address 58337 0% 50% 6
7 BIOMED INFORMATCHIYODA KU address 50001 0% 43% 6
8 GOLD NANOPROBE authKW 44448 0% 57% 4
9 NON CROSSLINKING authKW 43756 0% 75% 3
10 BIORECOGNITION NANOMODULES authKW 38895 0% 100% 2

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 Nanoscience & Nanotechnology 8400 25% 0% 394
2 Chemistry, Multidisciplinary 7779 46% 0% 716
3 Chemistry, Physical 3643 33% 0% 523
4 Materials Science, Multidisciplinary 3422 34% 0% 535
5 Chemistry, Analytical 1196 13% 0% 205
6 Physics, Applied 673 16% 0% 250
7 Physics, Condensed Matter 464 11% 0% 173
8 Biochemical Research Methods 355 6% 0% 93
9 Electrochemistry 108 3% 0% 45
10 Biophysics 95 4% 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 INT NANOTECHNOL 363924 6% 19% 98
2 CIGMH 80265 1% 24% 17
3 SERV PHYS SYST COMPLEXES MECAN STAT 58337 0% 50% 6
4 BIOMED INFORMATCHIYODA KU 50001 0% 43% 6
5 CIGMH SABT 38895 0% 100% 2
6 MOL CELL BIOL EXPT SURG 38895 0% 100% 2
7 JBCI 35003 0% 60% 3
8 SSET FUNCT NANOSYST 35003 0% 60% 3
9 BIOL SOFT SYST 31111 0% 40% 4
10 SABT 28282 0% 36% 4

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 SMALL 7728 3% 1% 45
2 LANGMUIR 4782 6% 0% 100
3 ACS NANO 3638 3% 0% 42
4 BIOCONJUGATE CHEMISTRY 2801 2% 1% 27
5 SOFT MATTER 2666 2% 0% 35
6 BIOSENSORS & BIOELECTRONICS 2430 2% 0% 35
7 JOURNAL OF THE AMERICAN CHEMICAL SOCIETY 2318 7% 0% 108
8 NANO LETTERS 2011 2% 0% 36
9 WILEY INTERDISCIPLINARY REVIEWS-NANOMEDICINE AND NANOBIOTECHNOLOGY 1802 0% 2% 6
10 NATURE MATERIALS 1341 1% 1% 12

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 GOLD NANOPARTICLES 160508 17% 3% 260 Search GOLD+NANOPARTICLES Search GOLD+NANOPARTICLES
2 DNA MATERIALS 58343 0% 100% 3 Search DNA+MATERIALS Search DNA+MATERIALS
3 DNA PROGRAMMABLE ASSEMBLY 58343 0% 100% 3 Search DNA+PROGRAMMABLE+ASSEMBLY Search DNA+PROGRAMMABLE+ASSEMBLY
4 GOLD NANOPROBE 44448 0% 57% 4 Search GOLD+NANOPROBE Search GOLD+NANOPROBE
5 NON CROSSLINKING 43756 0% 75% 3 Search NON+CROSSLINKING Search NON+CROSSLINKING
6 BIORECOGNITION NANOMODULES 38895 0% 100% 2 Search BIORECOGNITION+NANOMODULES Search BIORECOGNITION+NANOMODULES
7 CORE SATELLITE NANOSTRUCTURE 38895 0% 100% 2 Search CORE+SATELLITE+NANOSTRUCTURE Search CORE+SATELLITE+NANOSTRUCTURE
8 DNA FUNCTIONALIZED 38895 0% 100% 2 Search DNA+FUNCTIONALIZED Search DNA+FUNCTIONALIZED
9 DNA GRAFTED NANOPARTICLE 38895 0% 100% 2 Search DNA+GRAFTED+NANOPARTICLE Search DNA+GRAFTED+NANOPARTICLE
10 DNA PHASE TRANSITION 38895 0% 100% 2 Search DNA+PHASE+TRANSITION Search DNA+PHASE+TRANSITION

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 THEODORAKIS, PE , FYTAS, NG , KAHL, G , DELLAGO, C , (2015) SELF-ASSEMBLY OF DNA-FUNCTIONALIZED COLLOIDS.CONDENSED MATTER PHYSICS. VOL. 18. ISSUE 2. P. - 166 79% 4
2 ZHANG, XN , WANG, R , XUE, G , (2015) PROGRAMMING MACRO-MATERIALS FROM DNA-DIRECTED SELF-ASSEMBLY.SOFT MATTER. VOL. 11. ISSUE 10. P. 1862 -1870 76 95% 4
3 DI MICHELE, L , EISER, E , (2013) DEVELOPMENTS IN UNDERSTANDING AND CONTROLLING SELF ASSEMBLY OF DNA-FUNCTIONALIZED COLLOIDS.PHYSICAL CHEMISTRY CHEMICAL PHYSICS. VOL. 15. ISSUE 9. P. 3115-3129 62 76% 32
4 ANGIOLETTI-UBERTI, S , MOGNETTI, BM , FRENKEL, D , (2016) THEORY AND SIMULATION OF DNA-COATED COLLOIDS: A GUIDE FOR RATIONAL DESIGN.PHYSICAL CHEMISTRY CHEMICAL PHYSICS. VOL. 18. ISSUE 9. P. 6373 -6393 70 64% 2
5 GANG, O , TKACHENKO, AV , (2016) DNA-PROGRAMMABLE PARTICLE SUPERLATTICES: ASSEMBLY, PHASES, AND DYNAMIC CONTROL.MRS BULLETIN. VOL. 41. ISSUE 5. P. 381 -387 58 87% 0
6 JACOBS, WM , FRENKEL, D , (2016) SELF-ASSEMBLY OF STRUCTURES WITH ADDRESSABLE COMPLEXITY.JOURNAL OF THE AMERICAN CHEMICAL SOCIETY. VOL. 138. ISSUE 8. P. 2457 -2467 54 57% 6
7 CUTLER, JI , AUYEUNG, E , MIRKIN, CA , (2012) SPHERICAL NUCLEIC ACIDS.JOURNAL OF THE AMERICAN CHEMICAL SOCIETY. VOL. 134. ISSUE 3. P. 1376 -1391 60 43% 187
8 GEERTS, N , EISER, E , (2010) DNA-FUNCTIONALIZED COLLOIDS: PHYSICAL PROPERTIES AND APPLICATIONS.SOFT MATTER. VOL. 6. ISSUE 19. P. 4647 -4660 72 48% 78
9 LEUNISSEN, ME , FRENKEL, D , (2011) NUMERICAL STUDY OF DNA-FUNCTIONALIZED MICROPARTICLES AND NANOPARTICLES: EXPLICIT PAIR POTENTIALS AND THEIR IMPLICATIONS FOR PHASE BEHAVIOR.JOURNAL OF CHEMICAL PHYSICS. VOL. 134. ISSUE 8. P. - 42 76% 33
10 LEE, OS , PRYTKOVA, TR , SCHATZ, GC , (2010) USING DNA TO LINK GOLD NANOPARTICLES, POLYMERS, AND MOLECULES: A THEORETICAL PERSPECTIVE.JOURNAL OF PHYSICAL CHEMISTRY LETTERS. VOL. 1. ISSUE 12. P. 1781 -1788 34 92% 42

Classes with closest relation at Level 1


Rank Class id link
1 18071 CHEM NANOSCI S//MOLECULAR COMBING//DNA TEMPLATE
2 2108 DNA ORIGAMI//DNA NANOTECHNOLOGY//DNA NANOSTRUCTURES
3 7825 GOLD NANOPARTICLES//HARRY S TRUMAN VET ADM MED//THIOLATED POLYETHYLENE GLYCOL
4 30805 BUNKER CONFIGURATION//CHEM A MANGINI//CHIRAL GOLD NANOPARTICLE
5 6080 MERCURY ION//COLORIMETRIC DETECTION//MERCURYII ION
6 23483 NUCLEOLIPIDS//U869//ORGAN CHEM BIOORGAN CHEM 1
7 37169 FRONTIER SCI INNOVAT//NANOARCHITECTURE GRP//MOLECULAR BRIDGING
8 8753 LM2N//UMR 7070//SUPRACRYSTALS
9 30499 ENHANCED DARK FIELD ILLUMINATION//FLUORESCENCE MICROSCOPY AND SPECTROSCOPY//PLASMON RESONANCE RAYLEIGH SCATTERING
10 36335 ORIENTATIONAL SPECTRUM//ESCHERICHIA COLI XL 1//METAL NANO CLUSTERS

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