Pressure effects on the structure of nanoclusters by Calvo, F, Doye, J

Macrophages: micromanagers of antagonistic signaling nanoclusters by Eggeling, C, Davis, S

Rotating anisotropic crystalline silicon nanoclusters in graphene. by Chen, Q, Koh, A, Robertson, A, He, K, Lee, S, Yoon, E, Lee, G, Sinclair, R, Warner, J

“…The atomic structure and dynamics of silicon nanoclusters covalently bonded to graphene are studied using aberration-corrected transmission electron microscopy. …”

Reversible size control of silver nanoclusters via ligand-exchange by Bootharaju, M, Burlakov, V, Besong, T, Joshi, C, AbdulHalim, L, Black, D, Whetten, R, Goriely, A, Bakr, O

“…The properties of atomically monodisperse noble metal nanoclusters (NCs) are intricately intertwined with their precise molecular formula. …”

Functional role of T-cell receptor nanoclusters in signal initiation and antigen discrimination by Pageon, SV, Tabarin, T, Yamamoto, Y, Ma, Y, Nicovich, PR, Bridgeman, JS, Cohnen, A, Benzing, C, Gao, Y, Crowther, MD, Tungatt, K, Dolton, G, Sewell, AK, Price, DA, Acuto, O, Parton, RG, Gooding, JJ, Rossy, J, Rossjohn, J, Gaus, K

Generation of supraclusters and nanoclusters using laser desorption/ionisation mass spectrometry by Dyson, P, McGrady, J, Reinhold, M, Johnson, B, McIndoe, J, Langridge-Smith, P

“…The identities of the supra/nanoclusters generated from the molecular cluster precursors have not been conclusively established but are mostly coordinatively unsaturated. …”

Agile CD22 nanoclusters run rings around fenced BCR by Depoil, D, Dustin, M

“…They demonstrated that small CD22 nanoclusters run rings around the BCR in confined steady state to maintain low tonic signals, but releasing BCR from these corrals allows BCR cluster growth, which overcomes the harrying inhibition from highly mobile CD22.…”

Nanocluster evolution and mechanical properties of ion irradiated T91 ferritic-martensitic steel by Davis, TP, Auger, MA, Hofer, C, Bagot, PAJ, Moody, MP, Armstrong, DEJ

“…Ion irradiation has been used to investigate the radiation-induced precipitation of nanoclusters and changes in mechanical properties of commercial-grade T91 ferritic-martensitic steel irradiated with Fe4+ ions up to 4.10 dpa at 301 – 311 °C. …”

Active and inactive β1 integrins segregate into distinct nanoclusters in focal adhesions by Spiess, M, Hernandez-Varas, P, Oddone, A, Olofsson, H, Blom, H, Waithe, D, Lock, J, Lakadamyali, M, Strömblad, S

“…Remarkably, within FAs, active and inactive β1 integrins segregate into distinct nanoclusters, with active integrin nanoclusters being more organized. …”

Preferential Pt nanocluster seeding at grain boundary dislocations in polycrystalline monolayer MoS2 by Wang, S, Sawada, H, Han, X, Zhou, S, Li, S, Guo, Z, Kirkland, A, Warner, J

“…We show that Pt nanoclusters preferentially nucleate along the grain boundaries (GBs) in polycrystalline MoS2 monolayer films, with dislocations acting as the seed site. …”

Direct observation of behaviour of Au nanoclusters on TiO2 (110) at elevated temperatures by Mitchell, C, Howard, A, Carney, M, Egdell, R

Comment on "Critical analysis of negative heat capacities in nanoclusters" by Michaelian K. and Santamaria-Holek I. by Calvo, F, Wales, D, Doye, J, Berry, R, Labastie, P, Schmidt, M

A study of the growth and mobility of Pd nanoclusters on WO3(001) by scanning tunnelling microscopy by Dixon, R, Egdell, R

Initial and final state effects in photoemission from Au nanoclusters on TiO2(110) by Howard, A, Clark, D, Mitchell, C, Egdell, R, Dhanak, V

“…Valence level and shallow core states of Au nanoclusters on TiO 2(1 1 0) have been studied by synchrotron excited photoemission. …”

Direct visible light activation of a surface cysteine-engineered [NiFe]-hydrogenase by silver nanoclusters by Zhang, L, Beaton, S, Carr, S, Armstrong, F

The efficacy of Raf kinase recruitment to the GTPase H-ras depends on H-ras membrane conformer-specific nanoclustering. by Guzmán, C, Šolman, M, Ligabue, A, Blaževitš, O, Andrade, D, Reymond, L, Eggeling, C, Abankwa, D

“…By following the emergence of conformer-specific nanoclusters in the plasma membrane of mammalian cells, we found that conformers impart distinct nanoclustering responses depending on the cytoplasmic levels of the nanocluster scaffold galectin-1. …”

Membrane nanoclusters of FcγRI segregate from inhibitory SIRPα upon activation of human macrophages by Lopes, F, Bálint, Š, Valvo, S, Felce, J, Hessel, E, Dustin, M, Davis, D

“…Nanoclusters of FcγRI, but not FcγRII, are constitutively associated with nanoclusters of SIRPα, within 62 ± 5 nm, mediated by the actin cytoskeleton. …”

The actin cytoskeleton modulates the activation of invariant NKT cells by segregating CD1d nanoclusters on antigen presenting cells by Cerundolo, V, Salio, M, Shepherd, D, Torreno-Pina, J, Manzo, C, Aichinger, M, Oddone, A, Bestra, G, Garcia-Parajo, M

“…Dual-color single-particle tracking revealed that diffusing CD1d nanoclusters are actively arrested by the actin cytoskeleton, preventing their further coalescence. …”

Fast and selective photoreduction of CO2 to CO Catalyzed by a complex of carbon monoxide dehydrogenase, TiO2, and Ag nanoclusters by Zhang, L, Can, M, Ragsdale, S, Armstrong, F

“…Selective, visible-light-driven conversion of CO2 to CO with a turnover frequency of 20 s–1 under visible light irradiation at 25 °C is catalyzed by an aqueous colloidal system comprising a pseudoternary complex formed among carbon monoxide dehydrogenase (CODH), silver nanoclusters stabilized by polymethacrylic acid (AgNCs-PMAA), and TiO2 nanoparticles. …”

Experimental and modelling evidence for hydrogen trapping at a β-Nb second phase particle and Nb-rich nanoclusters in neutron-irradiated low Sn ZIRLO by Jenkins, BM, Haley, J, Chen, L, Gault, B, Burr, PA, Callow, A, Moody, MP, Grovenor, CRM

“…In this paper we use cryo-FIB to prepare APT specimens of neutron-irradiated low Sn ZIRLO, showing that hydrogen is trapped within a β-Nb SPP and at Nb-rich nanoclusters formed by exposure to neutron irradiation. …”