Synthesis of nanocomposite Pd balls and wires by chemical vapor infiltration

K. B. Lee; C. S. Choi; S. J. Oh; H. C. Ri; J. Cheon

Synthesis of nanocomposite Pd balls and wires by chemical vapor infiltration

K. B. Lee, C. S. Choi, S. J. Oh, H. C. Ri, J. Cheon

Department of Chemistry

Research output: Contribution to journal › Conference article › peer-review

Abstract

Our study presents the preparation of well-defined Pd nanoballs and nanowires using the different pore size of cubic and hexagonal shaped MCM type mesoporous silicate materials as matrix templates. The synthesis involves loading the organometallic precursor into template matrix via chemical vapor infiltration (CVI), followed by mild thermal decomposition to generate Pd metals self-organized inside the template. For Pd@MCM-48, the Pd metal forms spherical domains (∼38 nm) consisting of three dimensionally interconnected into Pd arrays; for Pd@SBA-15 and Pd@MCM-41, the Pd metal forms of one-dimensional wires. Etching out the matrix produces porous Pd nanoballs (pore sizes of ∼1.5 - 2.0 nm) with retaining original domain sizes of ∼38 nm; similarly Pd@SBA-15 and Pd@MCM-41 afford freestanding Pd nanowires. In addition, phase transition behavior and melting point depression of the Pd nanowires is studied.

Original language	English
Pages (from-to)	Pr3481-Pr3486
Journal	Journal De Physique. IV : JP
Volume	11
Issue number	3
Publication status	Published - 2001
Event	13th European Conference on Chemical Vapor Deposition (EUROCVD 13) - Athens, Greece Duration: 2001 Aug 26 → 2001 Aug 31

All Science Journal Classification (ASJC) codes

Physics and Astronomy(all)

Cite this

@article{557a59e1257d499fae80f7b049376dfb,

title = "Synthesis of nanocomposite Pd balls and wires by chemical vapor infiltration",

abstract = "Our study presents the preparation of well-defined Pd nanoballs and nanowires using the different pore size of cubic and hexagonal shaped MCM type mesoporous silicate materials as matrix templates. The synthesis involves loading the organometallic precursor into template matrix via chemical vapor infiltration (CVI), followed by mild thermal decomposition to generate Pd metals self-organized inside the template. For Pd@MCM-48, the Pd metal forms spherical domains (∼38 nm) consisting of three dimensionally interconnected into Pd arrays; for Pd@SBA-15 and Pd@MCM-41, the Pd metal forms of one-dimensional wires. Etching out the matrix produces porous Pd nanoballs (pore sizes of ∼1.5 - 2.0 nm) with retaining original domain sizes of ∼38 nm; similarly Pd@SBA-15 and Pd@MCM-41 afford freestanding Pd nanowires. In addition, phase transition behavior and melting point depression of the Pd nanowires is studied.",

author = "Lee, {K. B.} and Choi, {C. S.} and Oh, {S. J.} and Ri, {H. C.} and J. Cheon",

year = "2001",

language = "English",

volume = "11",

pages = "Pr3481--Pr3486",

journal = "European Physical Journal: Special Topics",

issn = "1951-6355",

publisher = "Springer Verlag",

number = "3",

note = "13th European Conference on Chemical Vapor Deposition (EUROCVD 13) ; Conference date: 26-08-2001 Through 31-08-2001",

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TY - JOUR

T1 - Synthesis of nanocomposite Pd balls and wires by chemical vapor infiltration

AU - Lee, K. B.

AU - Choi, C. S.

AU - Oh, S. J.

AU - Ri, H. C.

AU - Cheon, J.

PY - 2001

Y1 - 2001

N2 - Our study presents the preparation of well-defined Pd nanoballs and nanowires using the different pore size of cubic and hexagonal shaped MCM type mesoporous silicate materials as matrix templates. The synthesis involves loading the organometallic precursor into template matrix via chemical vapor infiltration (CVI), followed by mild thermal decomposition to generate Pd metals self-organized inside the template. For Pd@MCM-48, the Pd metal forms spherical domains (∼38 nm) consisting of three dimensionally interconnected into Pd arrays; for Pd@SBA-15 and Pd@MCM-41, the Pd metal forms of one-dimensional wires. Etching out the matrix produces porous Pd nanoballs (pore sizes of ∼1.5 - 2.0 nm) with retaining original domain sizes of ∼38 nm; similarly Pd@SBA-15 and Pd@MCM-41 afford freestanding Pd nanowires. In addition, phase transition behavior and melting point depression of the Pd nanowires is studied.

AB - Our study presents the preparation of well-defined Pd nanoballs and nanowires using the different pore size of cubic and hexagonal shaped MCM type mesoporous silicate materials as matrix templates. The synthesis involves loading the organometallic precursor into template matrix via chemical vapor infiltration (CVI), followed by mild thermal decomposition to generate Pd metals self-organized inside the template. For Pd@MCM-48, the Pd metal forms spherical domains (∼38 nm) consisting of three dimensionally interconnected into Pd arrays; for Pd@SBA-15 and Pd@MCM-41, the Pd metal forms of one-dimensional wires. Etching out the matrix produces porous Pd nanoballs (pore sizes of ∼1.5 - 2.0 nm) with retaining original domain sizes of ∼38 nm; similarly Pd@SBA-15 and Pd@MCM-41 afford freestanding Pd nanowires. In addition, phase transition behavior and melting point depression of the Pd nanowires is studied.

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M3 - Conference article

AN - SCOPUS:0034855024

SN - 1951-6355

VL - 11

SP - Pr3481-Pr3486

JO - European Physical Journal: Special Topics

JF - European Physical Journal: Special Topics

IS - 3

T2 - 13th European Conference on Chemical Vapor Deposition (EUROCVD 13)

Y2 - 26 August 2001 through 31 August 2001

ER -

Synthesis of nanocomposite Pd balls and wires by chemical vapor infiltration

Abstract

All Science Journal Classification (ASJC) codes

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