20 research outputs found
High‐Purity ErN@C Films: Morphology, Spectroscopic Characterization, and Thermal Stability
Films comprising the endohedral fullerene Er3N@C80 are deposited onto highly
oriented pyrolytic graphite (HOPG) substrates in high purity enabled by performing
mass-selected low-energy deposition from a cation beam. In the initial
stage, the growth on HOPG is dominated by spontaneous nucleation of small 2D
islands both on intact terraces as well as the step edges. The island growth
exhibits strong differences from lms comprising other fullerenes grown by the
same method. This behavior can be explained by the surface-diffusion-mediated
nucleation model presented in previous work: Dominant components in the
behavioural differences are a high intercage dispersion interaction and a lower
kinetic energy of cages migrating on the surface in comparison with previously
deposited materials. When annealed, the lms undergo several competing
processes: A small fraction desorbs in the temperature range 700–800 K, another
fraction forms covalent intercage bonds instead of the previous purely dispersive
bonding mode, and a third fraction probably decomposes to small fragments
Influence of Dispersion Interactions on the Thermal Desorption of Nonplanar Polycyclic Aromatic Hydrocarbons on HOPG
A combination of low energy ion beam deposition and mass resolved thermal desorption spectroscopy is applied to analyze the binding behavior of two nonplanar polycyclic aromatic hydrocarbons (PAHs) to highly oriented pyrolytic graphite (HOPG) surfaces—also concerning their lateral dispersion interactions. In particular, the fullerene precursor C60H30 (FPC) and rubrene C42H28 are studied. Due to their smaller contact areas, both molecules exhibit significantly weaker binding energies to the HOPG surface compared to planar PAHs of similar size: C60H30 is bound to the surface by 3.04 eV, which is 0.6 eV lower than for a fully planar homologue. For rubrene, an isolated molecule–substrate binding energy of 1.59 eV is found, which is about 1 eV less than that of the corresponding planar homologue hexabenzocoronene C42H18. In contrast to FPC, rubrene shows a significant (intermolecular) lateral dispersion contribution to the binding energy as the submonolayer coverage increases
C58 on Au(111): a scanning tunneling microscopy study
C58 fullerenes were adsorbed onto room temperature Au(111) surface by
low-energy (~6 eV) cluster ion beam deposition under ultrahigh vacuum
conditions. The topographic and electronic properties of the deposits were
monitored by means of scanning tunnelling microscopy (STM at 4.2 K).
Topographic images reveal that at low coverages fullerene cages are pinned by
point dislocation defects on the herringbone reconstructed gold terraces (as
well as by step edges). At intermediate coverages, pinned monomers, act as
nucleation centres for the formation of oligomeric C58 chains and 2D islands.
At the largest coverages studied, the surface becomes covered by 3D interlinked
C58 cages. STM topographic images of pinned single adsorbates are essentially
featureless. The corresponding local densities of states are consistent with
strong cage-substrate interactions. Topographic images of [C58]n oligomers show
a stripe-like intensity pattern oriented perpendicular to the axis connecting
the cage centers. This striped pattern becomes even more pronounced in maps of
the local density of states. As supported by density functional theory, DFT
calculations, and also by analogous STM images previously obtained for C60
polymers (M. Nakaya et al., J. Nanosci. Nanotechnol. 11, 2829 (2011)), we
conclude that these striped orbital patterns are a fingerprint of covalent
intercage bonds. For thick C58 films we have derived a band gap of 1.2 eV from
scanning tunnelling spectroscopy data, STS, confirming that the outermost C58
layer behaves as a wide band semiconductor
Increase of the mean inner Coulomb potential in Au clusters induced by surface tension and its implication for electron scattering
Electron holography in a transmission electron microscope was applied to
measure the phase shift induced by Au clusters as a function of the cluster
size. Large phase shifts Df observed for small Au clusters cannot be described
by the well-known equation Df=C_E V_0 t (C_E: interaction constant, V_0: mean
inner Coulomb potential (MIP) of bulk gold, t: cluster thickness). The rapid
increase of the Au MIP with decreasing cluster size derived from Df, can be
explained by the compressive strain of surface atoms in the cluster
Phenotypic profile of expanded NK cells in chronic lymphoproliferative disorders: a surrogate marker for NK-cell clonality
This is an open-access article distributed under the terms of the Creative Commons Attribution License.Currently, the lack of a universal and specific marker of clonality hampers the diagnosis and classification of chronic expansions of natural killer (NK) cells. Here we investigated the utility of flow cytometric detection of aberrant/altered NK-cell phenotypes as a surrogate marker for clonality, in the diagnostic work-up of chronic lymphoproliferative disorders of NK cells (CLPD-NK). For this purpose, a large panel of markers was evaluated by multiparametric flow cytometry on peripheral blood (PB) CD56 NK cells from 60 patients, including 23 subjects with predefined clonal (n = 9) and polyclonal (n = 14) CD56 NK-cell expansions, and 37 with CLPD-NK of undetermined clonality; also, PB samples from 10 healthy adults were included. Clonality was established using the human androgen receptor (HUMARA) assay. Clonal NK cells were found to show decreased expression of CD7, CD11b and CD38, and higher CD2, CD94 and HLADR levels vs. normal NK cells, together with a restricted repertoire of expression of the CD158a, CD158b and CD161 killer-associated receptors. In turn, NK cells from both clonal and polyclonal CLPD-NK showed similar/overlapping phenotypic profiles, except for high and more homogeneous expression of CD94 and HLADR, which was restricted to clonal CLPD-NK. We conclude that the CD94/HLADR phenotypic profile proved to be a useful surrogate marker for NK-cell clonality.This work has been partially supported by the following grants: FIS 02/1244-FEDER, DTS 15/00119-FEDER, RTICC RD06/0020/0035-FEDER and RTICC RD12/0036/0048-FEDER from the Fondo de Investigación Sanitaria, Instituto de Salud Carlos III, Ministerio de Economía y Competitividad, Madrid, Spain; SA103/03 and SA079U14 from the Consejería de Educación, Junta de Castilla y León, Valladolid, Spain. The research
activities of the EuroFlow Consortium were supported by the European Commission (grant STREP EU-FP6, LSHB-CT-2006–018708, entitled ‘Flow cytometry for fast
and sensitive diagnosis and follow-up of hematological malignancies’).Peer Reviewe
Phenotypic profile of expanded NK cells in chronic lymphoproliferative disorders: a surrogate marker for NK-cell clonality
[EN]Currently, the lack of a universal and specific marker of clonality hampers the diagnosis and classification of chronic expansions of natural killer (NK) cells. Here we investigated the utility of flow cytometric detection of aberrant/altered NK-cell phenotypes as a surrogate marker for clonality, in the diagnostic work-up of chronic lymphoproliferative disorders of NK cells (CLPD-NK). For this purpose, a large panel of markers was evaluated by multiparametric flow cytometry on peripheral blood (PB) CD56(low) NK cells from 60 patients, including 23 subjects with predefined clonal (n = 9) and polyclonal (n = 14) CD56(low) NK-cell expansions, and 37 with CLPD-NK of undetermined clonality; also, PB samples from 10 healthy adults were included. Clonality was established using the human androgen receptor (HUMARA) assay. Clonal NK cells were found to show decreased expression of CD7, CD11b and CD38, and higher CD2, CD94 and HLADR levels vs. normal NK cells, together with a restricted repertoire of expression of the CD158a, CD158b and CD161 killer-associated receptors. In turn, NK cells from both clonal and polyclonal CLPD-NK showed similar/overlapping phenotypic profiles, except for high and more homogeneous expression of CD94 and HLADR, which was restricted to clonal CLPD-NK. We conclude that the CD94(hi)/HLADR+ phenotypic profile proved to be a useful surrogate marker for NK-cell clonality.This work has been partially supported by the following grants: FIS 02/1244-FEDER, DTS 15/00119-FEDER, RTICC RD06/0020/0035-FEDER and RTICC RD12/0036/0048-FEDER from the Fondo de Investigación Sanitaria, Instituto de Salud Carlos III, Ministerio de Economía y Competitividad, Madrid, Spain; SA103/03 and SA079U14 from the Consejería de Educación, Junta de Castilla y León, Valladolid, Spain. The research activities of the EuroFlow Consortium were supported
by the European Commission (grant STREP EU-FP6, LSHB-CT-2006–018708, entitled ‘Flow cytometry for fast and sensitive diagnosis and follow-up of hematological malignancies’)
CO OXIDATION ON Ag(110): SURFACE RECONSTRUCTIONS CONTRA SUBSURFACE OXYGEN
Transient CO2 formation has been studied under "quasi-steady-state" measuring conditions by means of surface titrations. By this method the reactivity of the surface could be sampled as a function of time, thereby following the formation of the surface reconstruction induced by oxygen. The reactivity of the surface towards CO oxidation was reduced in the course of the developing surface reconstruction. A possible influence of subsurface oxygen on the CO2 formation rates can be excluded