+ Site Statistics
+ Search Articles
+ PDF Full Text Service
How our service works
Request PDF Full Text
+ Follow Us
Follow on Facebook
Follow on Twitter
Follow on LinkedIn
+ Subscribe to Site Feeds
Most Shared
PDF Full Text
+ Translate
+ Recently Requested

Preference for fcc atom stacking observed during growth of defect-free LJ3281 clusters



Preference for fcc atom stacking observed during growth of defect-free LJ3281 clusters



Crystal Research and Technology 42(12): 1207-1216




Please choose payment method:






(PDF emailed within 0-6 h: $19.90)

Accession: 063602056

Download citation: RISBibTeXText

DOI: 10.1002/crat.200711007


Related references

Atom-by-atom assembly of defect-free one-dimensional cold atom arrays. Science 354(6315): 1024-1027, 2016

An atom-by-atom assembler of defect-free arbitrary two-dimensional atomic arrays. Science 354(6315): 1021-1023, 2016

Barrierless growth of precursor-free, ultrafast laser-fragmented noble metal nanoparticles by colloidal atom clusters - A kinetic in situ study. Journal of Colloid and Interface Science 463: 299-307, 2016

Multiple ionization of atom clusters by intense soft X-rays from a free-electron laser. Nature 420: 2-5, 2002

Defect Clusters and Subcascades. I. The Distribution of Mean Free Paths of PKA and Splitting Function. Physica Status Solidi 132(2): 425-430, 1985

Nascent metal atom condensation in self-assembled monolayer matrices: coverage-driven morphology transitions from buried adlayers to electrically active metal atom nanofilaments to overlayer clusters during aluminum atom deposition on alkanethiolate/gold monolayers. Journal of the American Chemical Society 131(23): 8016-8029, 2009

Water-stabilized three- and four-atom palladium clusters as highly active catalytic species in ligand-free C-C cross-coupling reactions. Angewandte Chemie 52(44): 11554-9, 2013

Atom distributions in binary atom clusters: a perturbational approach and its validation in a case study. Journal of Chemical Physics 121(21): 10380-4, 2004

Exploring Variation in the Structure of 13-Atom Alloy Clusters as a Function of Atom Size and Interaction Energies. Microchemical Journal 55(2): 254-260, 1997

Controlling the Kondo effect in CoCu(n) clusters atom by atom. Physical Review Letters 101(26): 266803, 2008

Absolute core-level binding energy shifts between atom and solid: The BornHaber cycle revisited for free nanoscale metal clusters. Journal of Electron Spectroscopy and Related Phenomena 166-167: 38-44, 2008

Base-Controlled Heck, Suzuki, and Sonogashira Reactions Catalyzed by Ligand-Free Platinum or Palladium Single Atom and Sub-Nanometer Clusters. Journal of the American Chemical Society 141(5): 1928-1940, 2019

Core level photelectron and X-ray absorption spectroscopy of free argon clusters: Size-dependent energy shifts and determination of surface atom coordination. Physical Review Letters 74(15): 3017-3020, 1995

Local conformational variations observed in B-DNA crystals do not improve base stacking: computational analysis of base stacking in a d(CATGGGCCCATG)(2) B<-->A intermediate crystal structure. Nucleic Acids Research 28(24): 4893-4902, 2000

Origin of the size-dependence of the polarizability per atom in heterogeneous clusters: The case of AlP clusters. Journal of Chemical Physics 133(15): 154310, 2010