David L. Kepert

3.2k citations
114 papers · 2.1k indexed · h-index 25
Co-authors
Brian W. ClareAllan H. WhiteB.W. ClareBrian W. SkeltonJohn C. DewanJennifer M. PatrickJack M. HarrowfieldJ. Kyle
Topics
Metal complexes synthesis and properties (29 papers)Fullerene Chemistry and Applications (29 papers)Crystal structures of chemical compounds (26 papers)
Cited by
Inorganic ChemistryOrganic ChemistryElectronic, Optical and Magnetic Materials
Journals
NaturePhysical Review LettersThe Journal of Physical Chemistry B
Partner nations
AustraliaUnited KingdomGreece

In The Last Decade

David L. Kepert

113 papers receiving 1.9k citations

Peers

David L. Kepert
Comparison fields: 5 of 93
  • Organic Chemistry 1.2k
  • Materials Chemistry 1.0k
  • Inorganic Chemistry 886
  • Electronic, Optical and Magnetic Materials 425
  • Atomic and Molecular Physics, and Optics 364
Replace Gene B. Carpenter with:
Gene B. Carpenter United States
D. Mootz Germany
E. A. V. Ebsworth United Kingdom
W. Sawodny Germany
Frank H. Köhler Germany
B. P. Straughan United Kingdom
E. A. C. Lücken Switzerland
Annick Goursot France
Bernhard Metz Germany
Hans‐Herbert Schmidtke Germany
David L. Kepert relative to Gene B. Carpenter United States Gene B. Carpenter's profile →
Citations per field
00.5×1.5×2.1×
Gene B. Carpenter · 1×
Citations per year

Countries citing papers authored by David L. Kepert

Since Specialization
Citations

This map shows the geographic impact of David L. Kepert's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by David L. Kepert with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites David L. Kepert more than expected).

Fields of papers citing papers by David L. Kepert

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by David L. Kepert. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by David L. Kepert. The network helps show where David L. Kepert may publish in the future.

Co-authorship network of co-authors of David L. Kepert

This figure shows the co-authorship network connecting the top 25 collaborators of David L. Kepert. A scholar is included among the top collaborators of David L. Kepert based on the total number of citations received by their joint publications. Widths of edges represent the number of papers authors have co-authored together. Node borders signify the number of papers an author published with David L. Kepert. David L. Kepert is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

20 of 20 papers shown
#WorkIndexed citations
1
Isolation and Characterization of C60F38. Loss of Aromaticity on F2 Addition to C60F36
2004 ·The Journal of Physical Chemistry B ·Joan M. Street,Brian W. Clare,David L. Kepert,Roger Taylor
5
2
Evidence for the SN2? mechanism in hydrolysis of C60F48: origin of the stability of trannulenes
2003 ·Organic & Biomolecular Chemistry ·Brian W. Clare,David L. Kepert,Roger Taylor
9
3
In the first proven SN2′ fullerene reaction, both C3 and C1 C60F36 hydrolyse to C1 isomers of C60F35OH that eliminate HF to give epoxides C60F34O; C60F36O oxides are shown to be ethers, and a fourth isomer of C60F36 existsElectronic supplementary information (ESI) available: IR spectra of 1, 2, and C60F36O; EI and 19F NMR spectra of mixture eluting at 15 min (heptane). See http://www.rsc.org/suppdata/ob/b2/b209760p/
2003 ·Organic & Biomolecular Chemistry ·Anthony G. Avent,Alaa Abdul‐Sada,Brian W. Clare,David L. Kepert,Joan M. Street,Roger Taylor
23
4
C60F36: there is a third isomer and it has C1 symmetry
2002 ·Chemical Communications ·Anthony G. Avent,Brian W. Clare,Peter B. Hitchcock,David L. Kepert,Roger Taylor
27
5
Structures of C70X38 and C70X40, X=H,F
2002 ·Journal of Molecular Structure THEOCHEM ·Brian W. Clare,David L. Kepert
5
6
Stereochemical patterns in bromofullerenes, C60Br12 to C60Br24
1995 ·Journal of Molecular Structure THEOCHEM ·Brian W. Clare,David L. Kepert
15
7
Structures and stabilities of hydrofullerenes C60Hn
1993 ·Journal of Molecular Structure THEOCHEM ·Brian W. Clare,David L. Kepert
34
8
The mathematical modelling of cluster geometry
1992 ·Journal of Mathematical Chemistry ·Ian Bytheway,David L. Kepert
18
9
The closest packing of equal circles on a sphere
1986 ·Proceedings of the Royal Society of London A Mathematical and Physical Sciences ·B.W. Clare,David L. Kepert
61
10
Structure and stereochemistry in f-block complexes of high co-ordination number. Part 3. The [M(bidentate ligand)2(unidentate ligand)4] system : crystal structures of tetrakis(isothiocyanato)bis(octamethylpyrophosphoramide-OO″)uranium(IV) and tetrachlorobis(octamethylpyrophosphoramide-OO″)thorium(IV)
1983 ·Journal of the Chemical Society Dalton Transactions ·David L. Kepert,Jennifer M. Patrick,Allan H. White
4
11
Inorganic Stereochemistry
1982 ·David L. Kepert
320
12
Structural studies in metal–purpurate complexes. Part 3. Crystal structures of triaquapurpuratoiron(II) purpurate hexahydrate and tetraaquapurpuratomanganese(II) purpurate hexahydrate. Stereochemistry of the [M(tridentate ligand)(unidentate ligand)3] complexes
1977 ·Journal of the Chemical Society Dalton Transactions ·(unknown),David L. Kepert,Allan H. White,Anthony C. Willis
6
13
Crystal structure of tetraphenylarsonium cis-tetracarbonyl(chloromercurio)(dichloromercurio)ferrate
1976 ·Journal of the Chemical Society Dalton Transactions ·(unknown),David L. Kepert,Allan H. White,S. Bruce Wild
11
14
Stereochemistry of seven-co-ordinate compounds bis(bidentate ligand)-tris(unidentate ligand)metal
1975 ·Journal of the Chemical Society Dalton Transactions ·David L. Kepert
3
15
Crystal structure of bis[hydroxo(triphenyl)arsonium(V)] dodeca-µ-chloro-hexachloro-octahedro-hexaniobate(2–)
1973 ·Journal of the Chemical Society Dalton Transactions ·(unknown),David L. Kepert,(unknown),Allan H. White
11
16
Acid decomposition of decavanadate: specific salt effects
1973 ·Journal of the Chemical Society Dalton Transactions ·Brian W. Clare,David L. Kepert,D. W. Watts
8
17
Crystal structure of bis[(3-chloropyridine)mercury(I)] diperchlorate
1973 ·Journal of the Chemical Society Dalton Transactions ·David L. Kepert,(unknown),Allan H. White
10
18
Crystal structure of dicaesium octa-µ3-chloro-hexachloro-octahedro-hexa-tungstate(II) and -molybdate(II) complexes
1973 ·Journal of the Chemical Society Dalton Transactions ·Peter C. Healy,David L. Kepert,(unknown),Allan H. White
31
19
Stereochemistry of eight-coordination. Effect of bidentate ligands
1972 ·Inorganic Chemistry ·(unknown),David L. Kepert
33
20
Eight Co-Ordination in the Early Transition Series
1963 ·Nature ·Robin J. H. Clark,David L. Kepert,R. S. Nyholm,Jack Lewis
14

About David L. Kepert

David L. Kepert is a scholar working on Inorganic Chemistry, Organic Chemistry and Physical and Theoretical Chemistry, having authored 114 papers that have together received 2.1k indexed citations. Recurring topics across this work include Metal complexes synthesis and properties (29 papers), Fullerene Chemistry and Applications (29 papers) and Crystal structures of chemical compounds (26 papers). The work is most often cited by research in Inorganic Chemistry (886 citations), Organic Chemistry (1.2k citations) and Electronic, Optical and Magnetic Materials (425 citations). David L. Kepert has collaborated with scholars based in Australia, United Kingdom and Greece. Frequent co-authors include Brian W. Clare, Allan H. White, B.W. Clare, Brian W. Skelton, John C. Dewan, Jennifer M. Patrick, Jack M. Harrowfield, J. Kyle, R. L. Deutscher and Roger Taylor. Their work appears in journals such as Nature, Physical Review Letters and The Journal of Physical Chemistry B.

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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