2015
DOI: 10.1021/acs.accounts.5b00136
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Finding Needles in Haystacks: Scanning Tunneling Microscopy Reveals the Complex Reactivity of Si(100) Surfaces

Abstract: Many chemical reactions-etching, growth, and catalytic-produce highly faceted surfaces. Examples range from the atomically flat silicon surfaces produced by anisotropic etchants to the wide variety of faceted nanoparticles, including cubes, wires, plates, tetrapods, and more. This faceting is a macroscopic manifestation of highly site-specific surface reactions. In this Account, we show that these site-specific reactions literally write a record of their chemical reactivity in the morphology of the surface-a r… Show more

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Cited by 8 publications
(3 citation statements)
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“…The rates of the site-specific reactions were user-controlled parameters that were determined by comparison to experimental morphologies. ,, On the basis of previous investigations of the reactivity of H/Si(111) in a variety of solutions, ,, five different reactive sites were included in the simulation: kinks, points, dihydride-terminated steps, monohydride-terminated steps, and terrace sites. Two additional reactive sites which must exist at least transiently during etching, trihydrides and strained horizontal dihydrides, have never been observed experimentally and were assumed to etch immediately upon formation.…”
Section: Experimental and Computationalmentioning
confidence: 99%
“…The rates of the site-specific reactions were user-controlled parameters that were determined by comparison to experimental morphologies. ,, On the basis of previous investigations of the reactivity of H/Si(111) in a variety of solutions, ,, five different reactive sites were included in the simulation: kinks, points, dihydride-terminated steps, monohydride-terminated steps, and terrace sites. Two additional reactive sites which must exist at least transiently during etching, trihydrides and strained horizontal dihydrides, have never been observed experimentally and were assumed to etch immediately upon formation.…”
Section: Experimental and Computationalmentioning
confidence: 99%
“…In the development of silicon materials, the study of the Si(100) surface is one of the most popular fields, and there are many studies on Si(100) surfaces [4][5][6] because of the complex reactivity of the Si(100) surface. [7] The combination of organic molecules with the silicon surface helps to develop new properties of semiconductors and expand the applied range. [8,9] Through covalent bonding, [10] the semiconductors can have the unique functions of organic molecules.…”
Section: Introductionmentioning
confidence: 99%
“…2 In the growth of thin films, steps are often heterogeneous nucleation sites and can engender smooth step-flow growth under appropriate conditions; 3,4 the reverse can be true under etching conditions. 5 In a similar vein, steps can serve as templates for formation of one-dimensional nanowires along the step. 6 Regarding enantioselective separations, some steps present atomic configurations that are naturally chiral and can a) Author to whom correspondence should be addressed: thiel@ameslab.gov be used to separate chiral adsorbates; Cu, in particular, has been used for this purpose.…”
Section: Introductionmentioning
confidence: 99%