Advanced search
Publication Cover
Philosophical Magazine Volume 85, 2005 - Issue 36
Submit an article Journal homepage
383
Views
69
CrossRef citations to date
0
Altmetric
Original Articles

Kinetic analysis of the instability of hollow nanoparticles

A. M. Gusak Dept. of Materials Science and Engineering, UCLA, 6531 Boelter Hall, 420 Westwood Plaza, Los Angeles, CA 90095Correspondence[email protected]
,
T. V. Zaporozhets Dept. of Materials Science and Engineering, UCLA, 6531 Boelter Hall, 420 Westwood Plaza, Los Angeles, CA 90095
,
K. N. Tu Dept. of Materials Science and Engineering, UCLA, 6531 Boelter Hall, 420 Westwood Plaza, Los Angeles, CA 90095
&
U. Gösele Max Planck Institute of Microstructure Physics, Halle, Germany
Pages 4445-4464 | Received 23 Mar 2005, Accepted 15 Aug 2005, Published online: 21 Feb 2007

Citations (69)

Keep up to date with the latest research on this topic with citation updates for this article.

Subscribe to citation updates

Read on this site (5)

Györgyi Glodán, Csaba Cserháti & Dezső L. Beke. (2012) Temperature-dependent formation and shrinkage of hollow shells in hemispherical Ag/Pd nanoparticles. Philosophical Magazine 92:31, pages 3806-3812.
Read now
A.M. Gusak, F. Hodaj & T.V. Zaporozhets. (2011) Thermodynamics of void nucleation in nanoparticles. Philosophical Magazine Letters 91:12, pages 741-750.
Read now
A.V. Evteev, E.V. Levchenko, I.V. Belova & G.E. Murch. (2008) Shrinking kinetics by vacancy diffusion of hollow binary alloy nanospheres driven by the Gibbs–Thomson effect. Philosophical Magazine 88:10, pages 1525-1541.
Read now
R. Nakamura, J.-G. Lee, H. Mori & H. Nakajima. (2008) Oxidation behaviour of Ni nanoparticles and formation process of hollow NiO. Philosophical Magazine 88:2, pages 257-264.
Read now
A. V. Evteev, E. V. Levchenko, I. V. Belova & G. E. Murch. (2007) Shrinking kinetics by vacancy diffusion of a pure element hollow nanosphere. Philosophical Magazine 87:25, pages 3787-3796.
Read now

Articles from other publishers (64)

Amit Kumar, Soumen Dutta, Seonock Kim, Taewan Kwon, Santosh S. Patil, Nitee Kumari, Sampathkumar Jeevanandham & In Su Lee. (2022) Solid-State Reaction Synthesis of Nanoscale Materials: Strategies and Applications. Chemical Reviews 122:15, pages 12748-12863.
Crossref
О.М. Подолян & Т.В. Запорожець. (2022) Формування і стягування порожнин у нанодротах. Ukrainian Journal of Physics 56:9, pages 929.
Crossref
Sharmin Sharna, Mounib Bahri, Corinne Bouillet, Virgile Rouchon, Arnold Lambert, Anne-Sophie Gay, David Chiche & Ovidiu Ersen. (2021) In situ STEM study on the morphological evolution of copper-based nanoparticles during high-temperature redox reactions . Nanoscale 13:21, pages 9747-9756.
Crossref
S.A. Krasnitckii & M.Yu. Gutkin. (2021) Review on Theoretical Models of Void Evolution in Crystalline Particles. Reviews on advanced materials and technologies 3:1, pages 96-126.
Crossref
V.V. Yanovsky. (2019) Evolution of vacancy pores in bounded particles. Functional materials 26:1, pages 131-151.
Crossref
Tristan Asset, Cedric J. Gommes, Jakub Drnec, Pierre Bordet, Raphaël Chattot, Isaac Martens, Jaysen Nelayah, Nathalie Job, Frédéric Maillard & Laetitia Dubau. (2018) Disentangling the Degradation Pathways of Highly Defective PtNi/C Nanostructures – An Operando Wide and Small Angle X-ray Scattering Study. ACS Catalysis 9:1, pages 160-167.
Crossref
N. Pegios, V. Bliznuk, S.A. Theofanidis, V.V. Galvita, G.B. Marin, R. Palkovits & K. Simeonov. (2018) Ni nanoparticles and the Kirkendall effect in dry reforming of methane. Applied Surface Science 452, pages 239-247.
Crossref
Andriy Gusak & Nadiia Storozhuk. 2017. Handbook of Solid State Diffusion, Volume 2. Handbook of Solid State Diffusion, Volume 2 37 100 .
T. V. Zaporozhets, N. V. Storozhuk & A. M. Gusak. (2016) Competition of Voiding and Kirkendall Shift during Compound Growth in Reactive Diffusion–Alternative Models. METALLOFIZIKA I NOVEISHIE TEKHNOLOGII 38:10, pages 1279-1292.
Crossref
N. V. Storozhuk & A. M. Gusak. (2016) Competition of Frenkel and Kirkendall Effects at Interdiffusion. METALLOFIZIKA I NOVEISHIE TEKHNOLOGII 36:3, pages 367-374.
Crossref
Laetitia Dubau, Jaysen Nelayah, Simona Moldovan, Ovidiu Ersen, Pierre Bordet, Jakub Drnec, Tristan Asset, Raphaël Chattot & Frédéric Maillard. (2016) Defects do Catalysis: CO Monolayer Oxidation and Oxygen Reduction Reaction on Hollow PtNi/C Nanoparticles. ACS Catalysis 6:7, pages 4673-4684.
Crossref
Guang-Ming Lu, Yan-Li Lu, Ting-Ting Hu & Zheng Chen. (2016) Phase field crystal study on the grain boundary porosity induced by the Kirkendall effect. Modelling and Simulation in Materials Science and Engineering 24:3, pages 035001.
Crossref
Laetitia Dubau, Miguel Lopez-Haro, Julien Durst & Frédéric Maillard. (2016) Atomic-scale restructuring of hollow PtNi/C electrocatalysts during accelerated stress tests. Catalysis Today 262, pages 146-154.
Crossref
Amlan Dutta, Arup Kumar Raychaudhuri & Tanusri Saha-Dasgupta. (2016) Plasticity-mediated collapse and recrystallization in hollow copper nanowires: a molecular dynamics simulation. Beilstein Journal of Nanotechnology 7, pages 228-235.
Crossref
J. Tomán, C. Cserháti, Y. Iguchi, Zs. Jánosfalvi & Z. Erdélyi. (2015) Investigation of the role of vacancy sources and sinks on the Kirkendall-effect on the nanoscale. Thin Solid Films 591, pages 363-367.
Crossref
V. A. Kotenev, M. R. Kiselev, V. I. Zolotarevskii & A. Yu. Tsivadze. (2014) Cold sintering of iron nanoparticles. Protection of Metals and Physical Chemistry of Surfaces 50:4, pages 488-492.
Crossref
King-Ning Tu & Andriy M. Gusak. 2014. Kinetics in Nanoscale Materials. Kinetics in Nanoscale Materials 67 98 .
King-Ning Tu & Andriy M. Gusak. 2014. Kinetics in Nanoscale Materials. Kinetics in Nanoscale Materials 1 36 .
Csaba Cserháti, Györgyi Glodán & Dezső L. Beke. (2014) Hollow Hemisphere Shell Formation by Pure Kirkendall Porosity. Diffusion Foundations 1, pages 61-73.
Crossref
Bryan D. Anderson & Joseph B. Tracy. (2014) Nanoparticle conversion chemistry: Kirkendall effect, galvanic exchange, and anion exchange. Nanoscale 6:21, pages 12195-12216.
Crossref
Zoltan Balogh & Guido Schmitz. 2014. Physical Metallurgy. Physical Metallurgy 387 559 .
Huolin L. Xin, Kaiyang Niu, Daan Hein Alsem & Haimei Zheng. (2013) In Situ TEM Study of Catalytic Nanoparticle Reactions in Atmospheric Pressure Gas Environment . Microscopy and Microanalysis 19:6, pages 1558-1568.
Crossref
Kai-Yang Niu, Jungwon Park, Haimei Zheng & A. Paul Alivisatos. (2013) Revealing Bismuth Oxide Hollow Nanoparticle Formation by the Kirkendall Effect. Nano Letters 13:11, pages 5715-5719.
Crossref
P. A. Chernavskii, G. V. Pankina, M. I. Ivantsov & A. Yu. Khodakov. (2013) Size effects in the sequential oxidation-reduction of Co nanoparticles in the Co/SiO2 catalyst. Russian Journal of Physical Chemistry A 87:8, pages 1349-1352.
Crossref
A. M. Gusak & N. V. Storozhuk. (2013) Competition of K and F sinks during void formation. The Physics of Metals and Metallography 114:3, pages 197-206.
Crossref
O.M. Podolyan, T.V. Zaporozhets & A.M. Gusak. (2013) Pore Evolution at Reactive Diffusion in Spherical and Cylindrical Nanoparticles. Ukrainian Journal of Physics 58:2, pages 171-181.
Crossref
John A. Medford, Aaron C. Johnston-Peck & Joseph B. Tracy. (2013) Nanostructural transformations during the reduction of hollow and porous nickel oxide nanoparticles. Nanoscale 5:1, pages 155-159.
Crossref
Hui-Chia Yu, A. Van der Ven & K. Thornton. (2012) Simulations of the Kirkendall-Effect-Induced Deformation of Thermodynamically Ideal Binary Diffusion Couples with General Geometries. Metallurgical and Materials Transactions A 43:10, pages 3481-3500.
Crossref
T. V. Zaporozhets’, A. M. Gusak & O. M. Podolyan. (2012) Evolution of Pores in Nanoshells — a Competition of Direct and Inverse Kirkendall Effects, Frenkel and Gibbs–Thomson Effects: the Phenomenological Description and Computer Simulation. Uspehi Fiziki Metallov 13:1, pages 1-70.
Crossref
Ryusuke NAKAMURA & Hideo NAKAJIMA. (2012) Fabrication of Hollow Nanostructured Oxides via Oxidation of Metal Nanoparticles and Nanowires and their Structural Stability金属ナノ粒子およびナノワイヤーの酸化による酸化物中空構造体の作製とその構造安定性. Journal of Smart Processing 1:1, pages 20-24.
Crossref
A. V. Evteev, E. V. Levchenko, I. V. Belova & G. E. Murch. 2013. New Frontiers of Nanoparticles and Nanocomposite Materials. New Frontiers of Nanoparticles and Nanocomposite Materials 31 59 .
Zoltán Erdélyi & Dezső L. Beke. (2011) Nanoscale volume diffusion. Journal of Materials Science 46:20, pages 6465-6483.
Crossref
Maria Ibáñez, Jiandong Fan, Wenhua Li, Doris Cadavid, Raquel Nafria, Alex Carrete & Andreu Cabot. (2011) Means and Limits of Control of the Shell Parameters in Hollow Nanoparticles Obtained by the Kirkendall Effect. Chemistry of Materials 23:12, pages 3095-3104.
Crossref
Györgyi Glodán, Csaba Cserháti, Imre Beszeda & Dezső L. Beke. (2010) Production of hollow hemisphere shells by pure Kirkendall porosity formation in Au/Ag system. Applied Physics Letters 97:11.
Crossref
Tatyana V. Zaporozhets & Andriy M. Gusak. 2010. Diffusion-Controlled Solid State Reactions. Diffusion-Controlled Solid State Reactions 189 257 .
Andriy M. Gusak. 2010. Diffusion-Controlled Solid State Reactions. Diffusion-Controlled Solid State Reactions 11 35 .
Ryusuke Nakamura & Hideo Nakajima. (2010) Formation of Hollow and Porous Nanostructures of Iron Oxides via Oxidation of Iron Nanoparticles and Nanowires. Materials Science Forum 658, pages 197-200.
Crossref
Hideo Nakajima & Ryusuke Nakamura. (2010) Fabrication of Hollow Nano Particles of Metallic Oxides through Oxidation Process. Materials Science Forum 638-642, pages 67-72.
Crossref
G. Hassnain Jaffari, Abdullah Ceylan, C. Ni & S. Ismat Shah. (2010) Enhancement of surface spin disorder in hollow NiFe2O4 nanoparticles. Journal of Applied Physics 107:1.
Crossref
Ryusuke Nakamura & Hideo Nakajima. 2013. New Frontiers of Nanoparticles and Nanocomposite Materials. New Frontiers of Nanoparticles and Nanocomposite Materials 3 30 .
G Seifert, A Stalmashonak, H Hofmeister, J Haug & M Dubiel. (2009) Laser-Induced, Polarization Dependent Shape Transformation of Au/Ag Nanoparticles in Glass. Nanoscale Research Letters 4:11.
Crossref
A M Gusak & T V Zaporozhets. (2009) Hollow nanoshell formation and collapse in binary solid solutions with large range of solubility. Journal of Physics: Condensed Matter 21:41, pages 415303.
Crossref
David J. Larson, Alfred Cerezo, Jean Juraszek, Kazuhiro Hono & Guido Schmitz. (2012) Atom-Probe Tomographic Studies of Thin Films and Multilayers. MRS Bulletin 34:10, pages 732-737.
Crossref
Hui-Chia Yu, Dong-Hee Yeon, Xiaofan Li & K. Thornton. (2009) Continuum simulations of the formation of Kirkendall-effect-induced hollow cylinders in a binary substitutional alloy. Acta Materialia 57:18, pages 5348-5360.
Crossref
R. Nakamura, G. Matsubayashi, H. Tsuchiya, S. Fujimoto & H. Nakajima. (2009) Formation of oxide nanotubes via oxidation of Fe, Cu and Ni nanowires and their structural stability: Difference in formation and shrinkage behavior of interior pores. Acta Materialia 57:17, pages 5046-5052.
Crossref
Ryusuke Nakamura, Gen Matsubayashi, Hiroaki Tsuchiya, Shinji Fujimoto & Hideo Nakajima. (2009) Transition in the nanoporous structure of iron oxides during the oxidation of iron nanoparticles and nanowires. Acta Materialia 57:14, pages 4261-4266.
Crossref
Irina V. Belova, Alexander V. Evteev, Elena V. Levchenko & Graeme E. Murch. (2009) The Synthesis, Stability and Shrinkage of Hollow Nanoparticles: An Overview. Journal of Nano Research 7, pages 19-26.
Crossref
Alexander V. Evteev, Elena V. Levchenko, Irina V. Belova & Graeme E. Murch. (2009) Formation of a Hollow Binary Alloy Nanosphere: A Kinetic Monte Carlo Study. Journal of Nano Research 7, pages 11-17.
Crossref
A.M. Gusak & K.N. Tu. (2009) Interaction between the Kirkendall effect and the inverse Kirkendall effect in nanoscale particles. Acta Materialia 57:11, pages 3367-3373.
Crossref
Vladimir P. Zhdanov & Bengt Kasemo. (2009) On the Feasibility of Strain-Induced Formation of Hollows during Hydriding or Oxidation of Metal Nanoparticles. Nano Letters 9:5, pages 2172-2176.
Crossref
R Nakamura & H Nakajima. (2009) Structural stability of hollow oxide nanoparticles at high temperatures. Journal of Physics: Conference Series 165, pages 012072.
Crossref
Guido Schmitz, Constantin-Buzau Ene & Carsten Nowak. (2009) Reactive diffusion in nanostructures of spherical symmetry. Acta Materialia 57:9, pages 2673-2683.
Crossref
C. Ene, C. Nowak, C. Oberdorfer & G. Schmitz. (2009) Reactive diffusion under Laplace tension. Ultramicroscopy 109:5, pages 660-666.
Crossref
R. Nakamura, D. Tokozakura, J.-G. Lee, H. Mori & H. Nakajima. (2008) Shrinking of hollow Cu2O and NiO nanoparticles at high temperatures. Acta Materialia 56:18, pages 5276-5284.
Crossref
P. A. Chernavskii, G. V. Pankina, V. I. Zaikovskii, N. V. Peskov & P. Afanasiev. (2008) Formation of Hollow Spheres upon Oxidation of Supported Cobalt Nanoparticles. The Journal of Physical Chemistry C 112:26, pages 9573-9578.
Crossref
C.B. Ene, C. Nowak & Guido Schmitz. (2008) Stress Impact on Reactive Diffusion in Nano-Structures of Spherical Symmetry. Solid State Phenomena 138, pages 367-376.
Crossref
F. D. Fischer & J. Svoboda. (2007) High temperature instability of hollow nanoparticles. Journal of Nanoparticle Research 10:2, pages 255-261.
Crossref
Zhiyan Guo, Fanglin Du, Guicun Li & Zuolin Cui. (2008) Controlled synthesis of mesoporous SiO2/Ni3Si2O5(OH)4 core–shell microspheres with tunable chamber structures via a self-template method. Chemical Communications:25, pages 2911.
Crossref
Alexander V. Evteev, Elena V. Levchenko, Irina V. Belova & Graeme E. Murch. (2007) Stability of Hollow Nanospheres: A Molecular Dynamics Study. Solid State Phenomena 129, pages 125-130.
Crossref
Hong Jin Fan, Ulrich Gösele & Margit Zacharias. (2007) Formation of Nanotubes and Hollow Nanoparticles Based on Kirkendall and Diffusion Processes: A Review. Small 3:10, pages 1660-1671.
Crossref
Alexander V. Evteev, Elena V. Levchenko, Irina V. Belova & Graeme E. Murch. (2007) Stability and Shrinkage by Diffusion in Hollow Nanotubes. Defect and Diffusion Forum 266, pages 39-47.
Crossref
Sheng Peng & Shouheng Sun. (2007) Synthesis and Characterization of Monodisperse Hollow Fe 3 O 4 Nanoparticles . Angewandte Chemie International Edition 46:22, pages 4155-4158.
Crossref
Sheng Peng & Shouheng Sun. (2007) Synthesis and Characterization of Monodisperse Hollow Fe 3 O 4 Nanoparticles . Angewandte Chemie 119:22, pages 4233-4236.
Crossref
Andriy Gusak, Semen Kornienko & G.V. Lutsenko. (2007) Nonequilibrium Vacancies in Nanosystems. Defect and Diffusion Forum 264, pages 109-116.
Crossref

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.