Phase Switching of a Single Isomeric Molecule and Associated Characteristic Rectification

Yasuda, Satoshi; Nakamura, Tohru; Matsumoto, Mutsuyoshi; Shigekawa, Hidemi

doi:10.1021/ja038233o

Cited by 176 publications

(188 citation statements)

References 38 publications

(61 reference statements)

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“…One of the earliest reported studies correlating photochromic switching to changes in the conductance of individual molecules employed azobenzene derivatives embedded in n-dodecanethiol SAMs assembled on Au(111) (41). Azobenzenes undergo a cis-trans isomerization that alters the physical height of the molecules (Figure 8), albeit without significant change to molecular conductance.…”

Section: Photoswitchable Molecularly Modified Surfacesmentioning

confidence: 99%

Light Switching of Molecules on Surfaces

Browne

Feringa

2009

Annu. Rev. Phys. Chem.

274

254

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Smart surfaces, surfaces that respond to an external stimulus in a defined manner, hold considerable potential as components in molecular-based devices, not least as discrete switching elements. Many stimuli can be used to switch surfaces between different states, including redox, light, pH, and ion triggers. The present review focuses on molecular switching through the electronic excitation of molecules on surfaces with light. In developing light-responsive surfaces, investigators face several challenges, not only in achieving high photostationary states and fully reversible switching, but also in dealing with fatigue resistance and the effect of immobilization itself on molecular properties. The immobilization of light-responsive molecules requires the design and synthesis of functional molecular components both to achieve light switching and to anchor the molecular entity onto a surface. This review discusses several demonstrative examples of photoswitchable molecular systems in which the photochemistry has been explored in the immobilized state under ambient conditions and especially on electroactive surfaces, including self-assembled monolayers, bilayers, and polymer films.

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Section: Photoswitchable Molecularly Modified Surfacesmentioning

confidence: 99%

Light Switching of Molecules on Surfaces

Browne

Feringa

2009

Annu. Rev. Phys. Chem.

274

254

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“…[1][2][3][4][5][6] Azobenzene-functionalized selfassembled monolayers (SAMs) of alkyl chains have been successfully synthesized in the last two decades. [7][8][9][10][11][12] Unfortunately, such systems come with a substantial drawback: The photo-isomerization rate is drastically suppressed due to steric hindrance or excitonic coupling. 13,14 A number of experimental strategies have been suggested to overcome this problem, such as replacing the aliphatic linker by an aromatic one 15 or even bulkier groups, [16][17][18] or diluting the azobenzene moieties in densely-packed alkanethiolate SAMs.…”

Section: Introductionmentioning

confidence: 99%

Optical properties of azobenzene-functionalized self-assembled monolayers: Intermolecular coupling and many-body interactions

Cocchi

Moldt

Gahl

et al. 2016

The Journal of Chemical Physics

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In a joint theoretical and experimental work the optical properties of azobenzene-functionalized self-assembled monolayers (SAMs) are studied at different molecular packing densities. Our results, based on densityfunctional and many-body perturbation theory, as well as on differential reflectance (DR) spectroscopy, shed light on the microscopic mechanisms ruling photo-absorption in these systems. While the optical excitations are intrinsically excitonic in nature, regardless of the molecular concentration, in densely-packed SAMs intermolecular coupling and local-field effects are responsible for a sizable weakening of the exciton binding strength. Through a detailed analysis of the character of the electron-hole pairs, we show that distinct excitations involved in the photo-isomerization at low molecular concentrations are dramatically broadened by intermolecular interactions. Spectral shifts in the calculated DR spectra are in good agreement with the experimental results. Our findings represent an important step forward to rationalize the excited-state properties of these complex materials.

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“…7 This is most commonly accomplished by employing mixed monolayers with short-chain spacer molecules. 5,6,[8][9][10][11][12][13][14][15][16][17] More modern approaches to enforce a sufficient free volume employ specially designed molecules, which feature additional bulky spacer groups 6,[18][19][20][21] or molecular tripods [22][23][24][25] as basis. Nevertheless, these types of adlayers also exhibit intrinsic disadvantages such as a comparable low structural order or lack of temporal stability due to phase separation.…”

Section: Introductionmentioning

confidence: 99%

Self-assembly of triazatriangulenium-based functional adlayers on Au(111) surfaces

Kühn

Baisch

Jung

et al. 2010

Phys. Chem. Chem. Phys.

104

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EditorialInterfacial systems chemistry: out of the vacuum-through the liquid-into the cell Phys. Chem Detailed scanning tunneling microscopy studies of the attachment of freestanding molecular functions to Au(111) surfaces via self-assembly of functional molecules based on triazatriangulenium platforms are presented. As shown for molecules with side chains of different length and phenyl, azobenzyl, or azobenzyl derivatives with different terminal groups (iodo, cyano, or dimethyl) as functional units, this approach allows the preparation of very stable, hexagonally ordered adlayers. The intermolecular spacings in these adlayers are independent of the attached functions with the latter being orientated perpendicular to the Au surface. Due to their open structure, adlayers of platforms with attached functional groups exhibit a tendency towards bilayer formation, which can be suppressed by derivatization with appropriate terminal groups.

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Phase Switching of a Single Isomeric Molecule and Associated Characteristic Rectification

Cited by 176 publications

References 38 publications

Light Switching of Molecules on Surfaces

Light Switching of Molecules on Surfaces

Optical properties of azobenzene-functionalized self-assembled monolayers: Intermolecular coupling and many-body interactions

Self-assembly of triazatriangulenium-based functional adlayers on Au(111) surfaces

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