Formation of Ordered, Anisotropic Organic Monolayers on the Si(001) Surface

Hamers, Robert J.; Hovis, Jennifer S.; Lee, Seung; Liu, Hongbing; Shan, Junjun

doi:10.1021/jp9626778

Cited by 235 publications

(243 citation statements)

References 16 publications

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“…[1][2][3][4][5] Although many organic reactions on the Si(100)-2×1 surface have been examined, fewer have been explored on the Ge(100)-2×1 surface. Furthermore, although the set organic functional groups whose reactivity has been explored on semiconductor surfaces is now quite extensive, many organic functional groups are yet to be examined.…”

Section: Introductionmentioning

confidence: 99%

Attachment of Alanine and Arginine to the Ge(100)-2×1 Surface

2007

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The reactions of the amino acids alanine and arginine on the Ge(100)-2×1 surface are investigated using density functional theory. Arginine presents a unique reactivity not previously explored on semiconductor surfaces. Arginine dative bonds to the surface dimer through its imine lone pair, resulting in two adsorbed conformations with adsorption energies of 30.7 and 33.8 kcal/mol, significantly stronger than amine dative bonds on Ge(100)-2×1. We predict a N-H dissociation and an ene reaction pathway from each of these two conformers with the ene reactions kinetically favored over N-H dissociation of the imine N-H bond and the ene reaction from the cis state favored both kinetically and thermodynamically over the trans ene reaction. Our results for the reactions of the hydroxyl, carbonyl, and amine functional groups are similar to previous observations for analogous reactions of small organic molecules on Ge(100)-2×1. We find that O-H dissociation from the carbonyl dative bonded state is the most favorable pathway. The amine dative bonded state is slightly more stable than the carbonyl dative bonded state. We find that [2+2] cycloaddition through the CdN double bond is exothermic by only 3.3 kcal/mol.

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Section: Introductionmentioning

confidence: 99%

Attachment of Alanine and Arginine to the Ge(100)-2×1 Surface

2007

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“…11,12 It has been demonstrated that ethylene reacts with the silicon surface via the interaction between the C-C double bond and silicon dimers, producing two Si-C bonds ͑the so-called di-bonding͒. Other alkenes are found to react in a similar fashion with the Si͑100͒ surface, [13][14][15][16][17] i.e., they bind to the surface also via the di-bonding configuration. Besides simple alkenes, conjugated dienes such as 1,3-butadiene and 1,3-cyclohexadiene have been investigated.…”

Section: Introductionmentioning

confidence: 99%

Spontaneous dissociation of a conjugated molecule on the Si(100) surface

Lin

Galili

Quaade

et al. 2002

The Journal of Chemical Physics

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The adsorption mechanism of ␣-sexithiophene ͑␣-6T͒ on the clean Si(100)-(2ϫ1) surface has been investigated using scanning tunneling microscopy ͑STM͒ and first principles electronic structure calculations. We find that at submonolayer coverage, the ␣-6T molecules are not stable and dissociate into monomers. We observe two different configurations of the monomers and have discussed the corresponding adsorption geometries based on theoretical calculations. The calculations elucidate how the fragments are absorbed on the surface, giving rise to the observed STM images. With increasing coverage, the STM images show the existence of complete ␣-6T molecules. In addition, results of the adsorption behavior of ␣-6T molecules on the H-passivated Si(100)-(2ϫ1) surface are reported. On this surface the molecules are highly mobile at room temperature due to the weak molecule-substrate interaction. The STM results also indicate that they can easily be anchored at the defect sites.

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“…The (2ϫ1) surface reconstruction obtained by a simple lateral translation of surface Si-atoms to form Si dimers was first suggested by Schlier and Farnsworth 2 in 1959 and further confirmed in the scanning tunneling microscopic ͑STM͒ studies by Hamers et al [3][4][5] Many of the physical and chemical properties of Si͑100͒ can be rationalized by considering a double bond feature of dimer, that is, a strong bond linking the two Si atoms and a rather weak bond. All studies of simple alkenes on Si͑100͒ have shown a facial ͓2ϩ2͔ cycloaddition reaction pathway; [6][7][8][9][10][11][12][13][14][15][16][17][18][19][20][21][22] despite the fact that, according to Woodward's rule, the analogous reaction of two organic alkenes is forbidden in the high-symmetry suprafacial-suprafacial ͓2 s ϩ2 s ͔ approach. 23 Moreover, experimental evidence has shown that the molecular stereochemistry is preserved through this reaction, thereby ruling out the suprafacialantarafacial ͓2 s ϩ2 a ͔ mechanism.…”

Section: Introductionmentioning

confidence: 99%

Cycloaddition reaction of furan with Si(100)-2×1

Qiao

Tao

Cao

et al. 2001

The Journal of Chemical Physics

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Articles you may be interested in 1,2-Dibromoethane on Cu(100): Bonding structure and transformation to C2H4 J. Chem. Phys. 135, 064706 (2011) The covalent binding and adsorption states of acetonitrile on Si͑100͒ have been investigated using temperature programmed desorption ͑TPD͒, x-ray photoelectron spectroscopy ͑XPS͒, high-resolution electron energy loss spectroscopy ͑HREELS͒, and density function theory ͑DFT͒ calculation. XPS and HREELS results show that acetonitrile chemisorbs on Si͑100͒ in a side-on di-binding configuration, forming Si-C and Si-N bonds. TPD measurements reveal the presence of two desorption states, ␤1 and ␤2 with desorption energies of 29.8 and 24.6 kcal mol Ϫ1 , respectively. Based on DFT calculations, the ␤1 state is possibly assigned to di-bonded acetonitrile on top of a dimer and/or in an in-row bridging chemisorption, while the ␤2 state is related to acetonitrile bonded in a cross-row bridging configuration.

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Formation of Ordered, Anisotropic Organic Monolayers on the Si(001) Surface

Cited by 235 publications

References 16 publications

Attachment of Alanine and Arginine to the Ge(100)-2×1 Surface

Attachment of Alanine and Arginine to the Ge(100)-2×1 Surface

Spontaneous dissociation of a conjugated molecule on the Si(100) surface

Cycloaddition reaction of furan with Si(100)-2×1

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