2015
DOI: 10.1021/acs.chemmater.5b00644
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Electrochemical Liquid–Liquid–Solid Crystal Growth of Germanium Microwires on Hard and Soft Conductive Substrates at Low Temperature in Aqueous Solution

Abstract: Highly ordered crystalline Ge microwire arrays with individual diameters larger than 1 μm have been grown in aqueous solutions at ambient pressure and below the boiling point of water through an electrochemical liquid−liquid−solid (ec-LLS) crystal growth process. A pertinent feature of this work is the use of a liquid metal patterning strategy which combines the utility of photolithography with the simplicity of doctor blading to produce macroscopic (>1 cm 2 ) arrays of liquid metal microelectrodes. Optical an… Show more

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Cited by 26 publications
(53 citation statements)
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“…To demonstrate this concept, a strategy to prepare liquid metal microdroplets was developed. 36 Conventional photolithography was combined with simple doctor blading to create large-area arrays (>1 cm 2 ) of discrete liquid metal microelectrodes. Figure 4a−g shows the general premise and subsequent application in ec-LLS.…”
Section: Ec-lls Synthesis Of Crystalline Group IV Semiconductorsmentioning
confidence: 99%
“…To demonstrate this concept, a strategy to prepare liquid metal microdroplets was developed. 36 Conventional photolithography was combined with simple doctor blading to create large-area arrays (>1 cm 2 ) of discrete liquid metal microelectrodes. Figure 4a−g shows the general premise and subsequent application in ec-LLS.…”
Section: Ec-lls Synthesis Of Crystalline Group IV Semiconductorsmentioning
confidence: 99%
“…Таким образом, отсутствие роста на Sn и его наличие на In, а также сопоставление полученных нами экспериментальных ре-зультатов с результатами работ [12,13,15] указывают на то, что основополагающую роль для синтеза нитевидных нанокристаллов Ge из водного раствора является нали-чие частиц металла в жидком состоянии.…”
Section: Discussionunclassified
“…В работах [12,13] была продемонстрирована возмож-ность электрохимического осаждения нитевидных на-ноструктур Ge из водных растворов без использова-ния темплатов. Особенностью этого метода является использование расплавленных частиц металлов, таких как Hg и Ga, в качестве центров кристаллизации.…”
Section: Introductionunclassified
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“…8,9 A newly identified method is electrochemical liquid-liquid-solid (ec-LLS) crystal growth, where a liquid metal electrode acts both as the source of electrons for heterogeneous reduction reactions and as the solvent for semiconductor crystal formation. 10,11 An advantage of ec-LLS over the aforementioned methods is the capacity to produce crystalline semiconductor micro/nanowires in aqueous solution at ambient temperatures and pressures.…”
mentioning
confidence: 99%