Effect of Ti seed layers on structure of self-organized epitaxial face-centered-cubic-Ag(001) oriented nanodots

Kamiko, Masao; Suenaga, Ryo; Koo, Jung Woo; Nose, Kenji; Kyuno, Kentaro; Ha, Jong‐Myung

doi:10.1063/1.4856975

Cited by 10 publications

(16 citation statements)

References 49 publications

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“…For a 6.0-nm-thick Ag layer with a 1.0-nmthick Ti seed layer, the surface morphology of the Ag layer transformed into separate island structures, leading to the formation of a nanodot array [Fig. 1 Compared with the case of the MgO(100) substrate, as reported previously, 11,12) the nanodots observed in this study are slimmer. Thus, the Ag=Ti surface structure formed on the MgO(110) substrate is a type of "nanorod".…”

supporting

confidence: 65%

“…Recently, we have reported on seed-layer-assisted agglomeration (SLAA), a unique technique for the fabrication of agglomerated Au or Ag nanodots, which overcomes the constraints of thermodynamics. [10][11][12] We demonstrated that the insertion of an ultrathin Fe or Ti seed layer between the MgO(001) substrate and a thin Au or Ag layer promoted agglomeration at a relatively low temperature. We also observed that the epitaxial growth of the agglomerated Ag nanodots on the MgO(001) substrate was facilitated by the use of the Ti seed layers.…”

mentioning

confidence: 94%

“…We also observed that the epitaxial growth of the agglomerated Ag nanodots on the MgO(001) substrate was facilitated by the use of the Ti seed layers. 11,12) Previous studies [9][10][11][12] have shown that this SLAA method provides the following advantages: (1) the manufactured thin film will have strong adhesion to the substrate, (2) the agglomeration temperature is decreased, and (3) the epitaxial growth of nanodots is enhanced.…”

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confidence: 99%

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Fabrication of self-organized epitaxial fcc-Ag(110)-oriented nanorods by a Ti seed-layer-assisted thermal agglomeration method

Kamiko¹,

Suenaga²,

Koo³

et al. 2015

Appl. Phys. Express

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We analyzed the effect of a Ti seed layer on the agglomeration of Ag films grown on MgO(110) substrates. The samples were deposited at room temperature and post-annealed at 350 °C for 4 h. Atomic force microscopy observations indicated that the insertion of the Ti seed layer between the substrate and Ag promoted the agglomeration, leading to nanorod formation. X-ray diffraction analyses showed that the Ag/Ti film grown on MgO(110) substrate yielded fcc-Ag(110)-oriented epitaxial nanorods. Additionally, typical optical absorbance spectra of the Ag nanorods were obtained in the Ag/Ti films.

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confidence: 65%

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confidence: 94%

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confidence: 99%

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Fabrication of self-organized epitaxial fcc-Ag(110)-oriented nanorods by a Ti seed-layer-assisted thermal agglomeration method

Kamiko¹,

Suenaga²,

Koo³

et al. 2015

Appl. Phys. Express

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“…Nanoparticles are well-known for their enhanced physical and chemical properties over their bulk counterparts with the added possibility to manipulate these properties for a range of different applications by simply varying their dimension and geometry. , The integration of nanoparticles into one-, two-, or three-dimensional (2D or 3D) structures leads to novel collective properties that can be controlled by altering the nanoparticles’ arrangements, which in turn influences their cooperative interactions. − Therefore, the development of functional nanostructures with specific patterns and high interstitial long-range order has received considerable interest in recent years due to their applications in the fields of solar cells, optical devices, chemical sensing, and catalysis . From a chemical sensing point of view, it is important to consider not only high sensitivity but also uniformity and reproducibility of the surface (sensitive layer) itself.…”

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confidence: 99%

Nanosphere Monolayer on a Transducer for Enhanced Detection of Gaseous Heavy Metal

Sabri

Kandjani

Ippolito

et al. 2015

ACS Appl. Mater. Interfaces

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This study reports for the first time that polystyrene monodispersed nanosphere monolayer (PS-MNM) based Au (Au-MNM) and Ag (Ag-MNM) nanostructures deposited on quartz crystal microbalance (QCM) transducers can be used for nonoptical based chemical sensing with extremely high sensitivity and selectivity. This was demonstrated by exposing the Au-MNM and Ag-MNM based QCMs to low concentrations of Hg(0) vapor in the presence interferent gas species (i.e., H2O, NH3, volatile organics, etc.) at operating temperatures of 30 and 75 °C. At 30 °C, the Au-MNM and Ag-MNM based QCMs showed ∼16 and ∼20 times higher response magnitude toward Hg(0) vapor concentration of 3.26 mg/m(3) (364 parts per billion by volume (ppbv)) relative to their unmodified control counterparts, respectively. The results indicated that the extremely high sensitivity was not due to the increased surface area (only 4.62 times increase) but due to their long-range interspatial order and high number of surface defect formation which are selectively active toward Hg(0) vapor sorption. The Au-MNM and Ag-MNM also had more than an order of magnitude lower detection limits (<3 ppbv) toward Hg(0) vapor compared to their unmodified control counterparts (>30 ppbv). When the operating temperature was increased from 30 to 75 °C, it was found that the sensors exhibited lower drift, better accuracy, and better selectivity toward Hg(0) vapor but at the compromise of higher detection limits. The high repeatability (84%), accuracy (97%), and stability of Au-MNM in particular make it practical to potentially be used as nonspectroscopic based Hg(0) vapor sensor in many industries either as mercury emission monitoring or as part of a mercury control feedback system.

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“…Kamiko et al recently reported self-organized epitaxial nanostructures caused by the thermal agglomeration of a Ag film with a thin Ti seed layer. 22,23 We previously used a ZnO film with a crystalline (001) orientation as a seed layer to improve the crystalline orientation of an fcc-Ag (111) underlayer. 21 Thus, it is likely that the ZnO layer inserted into the Ag/Ru interface promotes the surface metal agglomeration of fccAg with a crystalline (111) orientation.…”

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confidence: 99%

Magneto-plasmonics on perpendicular magnetic CoPt–Ag nanostructures with ZnO intermediate thin layers

Yamane

Takeda

Kobayashi

2015

Applied Physics Letters

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Effect of Ti seed layers on structure of self-organized epitaxial face-centered-cubic-Ag(001) oriented nanodots

Cited by 10 publications

References 49 publications

Fabrication of self-organized epitaxial fcc-Ag(110)-oriented nanorods by a Ti seed-layer-assisted thermal agglomeration method

Fabrication of self-organized epitaxial fcc-Ag(110)-oriented nanorods by a Ti seed-layer-assisted thermal agglomeration method

Nanosphere Monolayer on a Transducer for Enhanced Detection of Gaseous Heavy Metal

Magneto-plasmonics on perpendicular magnetic CoPt–Ag nanostructures with ZnO intermediate thin layers

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