Related references
Note: Only part of the references are listed.Nucleation and Growth of Magnetron-Sputtered Ag Nanoparticles as Witnessed by Time-Resolved Small Angle X-Ray Scattering
Artem Shelemin et al.
PARTICLE & PARTICLE SYSTEMS CHARACTERIZATION (2020)
Influence of discharge power on the size of the Pd cluster generated with a magnetron plasma gas aggregation cluster source
Chang Liu et al.
VACUUM (2020)
Nanoparticles: Properties, applications and toxicities
Ibrahim Khan et al.
ARABIAN JOURNAL OF CHEMISTRY (2019)
Growth of semi-coherent Ni and NiO dual-phase nanoparticles using hollow cathode sputtering
Sebastian Ekeroth et al.
JOURNAL OF NANOPARTICLE RESEARCH (2019)
The evolution of Ag nanoparticles inside a gas aggregation cluster source
Daniil Nikitin et al.
PLASMA PROCESSES AND POLYMERS (2019)
Effect of magnetic field on the formation of Cu nanoparticles during magnetron sputtering in the gas aggregation cluster source
Mykhailo Vaidulych et al.
PLASMA PROCESSES AND POLYMERS (2019)
Plasma based formation and deposition of metal and metal oxide nanoparticles using a gas aggregation source
Oleksandr Polonskyi et al.
EUROPEAN PHYSICAL JOURNAL D (2018)
Gas-phase synthesis of nanoparticles: present status and perspectives
Y. Huttel et al.
MRS COMMUNICATIONS (2018)
Hydrogen gas sensing properties of WO3 sputter-deposited thin films enhanced by on-top deposited CuO nanoclusters
Stanislav Haviar et al.
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY (2018)
Single target sputter deposition of alloy nanoparticles with adjustable composition via a gas aggregation cluster source
Alexander Vahl et al.
NANOTECHNOLOGY (2017)
Influence of source parameters on the growth of metal nanoparticles by sputter-gas-aggregation
Malak Khojasteh et al.
APPLIED NANOSCIENCE (2017)
The influence of pressure and gas flow on size and morphology of titanium oxide nanoparticles synthesized by hollow cathode sputtering
Rickard Gunnarsson et al.
JOURNAL OF APPLIED PHYSICS (2016)
Study of photoelectrochemical water splitting using composite films based on TiO2 nanoparticles and nitrogen or boron doped hollow carbon spheres as photoanodes
Kamalakannan Ranganathan et al.
JOURNAL OF MOLECULAR CATALYSIS A-CHEMICAL (2016)
Effects of oxygen addition in reactive cluster beam deposition of tungsten by magnetron sputtering with gas aggregation
J. Polasek et al.
THIN SOLID FILMS (2015)
Preparation of metal oxide nanoparticles by gas aggregation cluster source
Artem Shelemin et al.
VACUUM (2015)
Study of mass and cluster flux in a pulsed gas system with enhanced nanoparticle aggregation
Steffen Drache et al.
JOURNAL OF APPLIED PHYSICS (2014)
Mechanical properties of nanoparticles: basics and applications
Dan Guo et al.
JOURNAL OF PHYSICS D-APPLIED PHYSICS (2014)
Mechanisms of Ti nanocluster formation by inert gas condensation
Ahmad I. Ayesh et al.
JOURNAL OF MATERIALS RESEARCH (2013)
Characterization of nanoparticle flow produced by gas aggregation source
Jaroslav Kousal et al.
VACUUM (2013)
On the evolution of nanocluster size distribution in a nanocluster aggregation source
A. A. Turkin et al.
JOURNAL OF APPLIED PHYSICS (2012)
Influence of reactive gas admixture on transition metal cluster nucleation in a gas aggregation cluster source
Tilo Peter et al.
JOURNAL OF APPLIED PHYSICS (2012)
The influence of target erosion on the mass spectra of clusters formed in the planar DC magnetron sputtering source
M. Ganeva et al.
SURFACE & COATINGS TECHNOLOGY (2012)
Size-, Shape- and Composition-Dependent Alloying Ability of Bimetallic Nanoparticles
Shiyun Xiong et al.
CHEMPHYSCHEM (2011)
Synthesis of silver nano particles and fabrication of aqueous Ag inks for inkjet printing
A. Kosmala et al.
MATERIALS CHEMISTRY AND PHYSICS (2011)
Size-controlled formation of Cu nanoclusters in pulsed magnetron sputtering system
Vitezslav Stranak et al.
SURFACE & COATINGS TECHNOLOGY (2011)
Nanostructured thin films prepared from cluster beams
P. Solar et al.
SURFACE & COATINGS TECHNOLOGY (2011)
Magnetron plasma and nanotechnology
P. V. Kashtanov et al.
PHYSICS-USPEKHI (2007)
Size-selected cluster beam source based on radio frequency magnetron plasma sputtering and gas condensation
S Pratontep et al.
REVIEW OF SCIENTIFIC INSTRUMENTS (2005)
Preparation of vanadium and vanadium oxide clusters by means of inert gas aggregation
M Melzer et al.
CATALYSIS LETTERS (2002)
Share Paper
