Electrochemical Liquid-Liquid-Solid Deposition of Crystalline Ge Nanowires as a Function of Ga Nanodroplet Size
Direct preparation of crystalline Ge nanowires from dissolved aqueous solutions of GeO2 via electrodeposition through an electrochemical liquid-liquid-solid (ec-LLS) process using a variety of Ga nano/microdroplets has been demonstrated. Templated silica films featuring regularly spaced openings wit...
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| Veröffentlicht in: | Journal of the Electrochemical Society 2014-01, Vol.161 (7), p.D3044-D3050 |
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| container_title | Journal of the Electrochemical Society |
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| creator | Ma, Luyao Gu, Junsi Fahrenkrug, Eli Maldonado, Stephen |
| description | Direct preparation of crystalline Ge nanowires from dissolved aqueous solutions of GeO2 via electrodeposition through an electrochemical liquid-liquid-solid (ec-LLS) process using a variety of Ga nano/microdroplets has been demonstrated. Templated silica films featuring regularly spaced openings with defined sizes were prepared on degenerately doped Si substrates by a modified natural lithography patterning process. These platforms were used to electrodeposit Ga droplet arrays with defined sizes and pitch. The Ga nano/microdroplets subsequently facilitated Ge nanowire ec-LLS in water as a function of droplet size. The amperometric responses recorded during ec-LLS depended on the Ga nanodroplet size. However, none of the recorded current-time profiles fit either Cottrell-type or standard nucleation models. Similarly, electron micrographs of the as-produced Ge nanowires showed a strong correlation between the base size of the Ge nanowires and the Ga droplet diameter. All nanowires featured a consistent taper, with a cone angle of approximately 10°. For the largest Ga droplets, no nanowires were observed under the employed ec-LLS conditions. Instead, a large isotropic Ge deposit covered with small Ge nanowires was observed. These cumulative results provide the first probe of the effects that liquid metal size(volume) have on electrodeposition by ec-LLS. |
| doi_str_mv | 10.1149/2.006407jes |
| format | Article |
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Templated silica films featuring regularly spaced openings with defined sizes were prepared on degenerately doped Si substrates by a modified natural lithography patterning process. These platforms were used to electrodeposit Ga droplet arrays with defined sizes and pitch. The Ga nano/microdroplets subsequently facilitated Ge nanowire ec-LLS in water as a function of droplet size. The amperometric responses recorded during ec-LLS depended on the Ga nanodroplet size. However, none of the recorded current-time profiles fit either Cottrell-type or standard nucleation models. Similarly, electron micrographs of the as-produced Ge nanowires showed a strong correlation between the base size of the Ge nanowires and the Ga droplet diameter. All nanowires featured a consistent taper, with a cone angle of approximately 10°. For the largest Ga droplets, no nanowires were observed under the employed ec-LLS conditions. Instead, a large isotropic Ge deposit covered with small Ge nanowires was observed. 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Electrochem. Soc</addtitle><description>Direct preparation of crystalline Ge nanowires from dissolved aqueous solutions of GeO2 via electrodeposition through an electrochemical liquid-liquid-solid (ec-LLS) process using a variety of Ga nano/microdroplets has been demonstrated. Templated silica films featuring regularly spaced openings with defined sizes were prepared on degenerately doped Si substrates by a modified natural lithography patterning process. These platforms were used to electrodeposit Ga droplet arrays with defined sizes and pitch. The Ga nano/microdroplets subsequently facilitated Ge nanowire ec-LLS in water as a function of droplet size. The amperometric responses recorded during ec-LLS depended on the Ga nanodroplet size. However, none of the recorded current-time profiles fit either Cottrell-type or standard nucleation models. Similarly, electron micrographs of the as-produced Ge nanowires showed a strong correlation between the base size of the Ge nanowires and the Ga droplet diameter. All nanowires featured a consistent taper, with a cone angle of approximately 10°. For the largest Ga droplets, no nanowires were observed under the employed ec-LLS conditions. Instead, a large isotropic Ge deposit covered with small Ge nanowires was observed. 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Electrochem. Soc</addtitle><date>2014-01-01</date><risdate>2014</risdate><volume>161</volume><issue>7</issue><spage>D3044</spage><epage>D3050</epage><pages>D3044-D3050</pages><issn>0013-4651</issn><eissn>1945-7111</eissn><abstract>Direct preparation of crystalline Ge nanowires from dissolved aqueous solutions of GeO2 via electrodeposition through an electrochemical liquid-liquid-solid (ec-LLS) process using a variety of Ga nano/microdroplets has been demonstrated. Templated silica films featuring regularly spaced openings with defined sizes were prepared on degenerately doped Si substrates by a modified natural lithography patterning process. These platforms were used to electrodeposit Ga droplet arrays with defined sizes and pitch. The Ga nano/microdroplets subsequently facilitated Ge nanowire ec-LLS in water as a function of droplet size. The amperometric responses recorded during ec-LLS depended on the Ga nanodroplet size. However, none of the recorded current-time profiles fit either Cottrell-type or standard nucleation models. Similarly, electron micrographs of the as-produced Ge nanowires showed a strong correlation between the base size of the Ge nanowires and the Ga droplet diameter. All nanowires featured a consistent taper, with a cone angle of approximately 10°. For the largest Ga droplets, no nanowires were observed under the employed ec-LLS conditions. Instead, a large isotropic Ge deposit covered with small Ge nanowires was observed. These cumulative results provide the first probe of the effects that liquid metal size(volume) have on electrodeposition by ec-LLS.</abstract><pub>The Electrochemical Society</pub><doi>10.1149/2.006407jes</doi><tpages>7</tpages><oa>free_for_read</oa></addata></record> |
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| title | Electrochemical Liquid-Liquid-Solid Deposition of Crystalline Ge Nanowires as a Function of Ga Nanodroplet Size |
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