Antonino Gulino scite author profile

Most molecular self-assembly strategies involve equilibrium systems, leading to a single thermodynamic product as a result of weak, reversible non-covalent interactions. Yet, strong non-covalent interactions may result in non-equilibrium self-assembly, in which structural diversity is achieved by forming several kinetic products based on a single covalent building block. We demonstrate that well-defined amphiphilic molecular systems based on perylene diimide/peptide conjugates exhibit kinetically controlled self-assembly in aqueous medium, enabling pathway-dependent assembly sequences, in which different organic nanostructures are evolved in a stepwise manner. The self-assembly process was characterized using UV/Vis circular dichroism (CD) spectroscopy, and cryogenic transmission electron microscopy (cryo-TEM). Our findings show that pathway-controlled self-assembly may significantly broaden the methodology of non-covalent synthesis.

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Self-Propagating Assembly of a Molecular-Based Multilayer

Motiei

et al. 2008

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Structural and electronic characterization of self-assembled molecular nanoarchitectures by X-ray photoelectron spectroscopy

Gulino¹

2012

Anal Bioanal Chem

121

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Molecular monolayers and similar nanoarchitectures are indicative of the promising future of nanotechnology. Therefore, many scientists recently devoted their efforts to the synthesis, characterization, and properties of mono- and multilayer-based systems. In this context, X-ray photoelectron spectroscopy is an important technique for the in-depth chemical and structural characterization of nanoscopic systems. In fact, it is a surface technique suitable for probing thicknesses of the same order of the photoelectron inelastic mean free paths (a few tens of ångströms) and allows one to immediately obtain qualitative and quantitative data, film thickness, surface coverage, molecule footprint, oxidation states, and presence of functional groups. Nevertheless, other techniques are important in obtaining a complete spectroscopic characterization of the investigated systems. Therefore, in the present review we report on X-ray photoelectron spectroscopy of self-assembled molecular mono- and multilayer materials including some examples on which other characterization techniques produced important results.

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Stepwise Assembly of Coordination-Based Metal−Organic Networks

et al. 2010

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Metal-organic networks (MONs) were created by a stepwise solution deposition approach from vinylpyridine-based building blocks and PdCl(2). The combined experimental and computational study demonstrates the formation of saturated, structurally organized systems on solid supports. The rigid nature and geometry of the components are well-suited to form honeycomb and parallelogram structures, as predicted by a computational study. Detailed structural information of the new MONs was obtained by optical (UV/vis) spectroscopy, ellipsometry, atomic force microscopy (AFM), X-ray photoelectron spectroscopy (XPS), and synchrotron X-ray reflectivity (XRR). Notably, the XPS elemental composition indicates the formation of a palladium coordination-based network.

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Engineered Silica Surfaces with an Assembled C₆₀ Fullerene Monolayer

et al. 2005

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A covalently assembled monolayer of 61-(p-hydroxyphenylmethano)fullerene [C60] molecules has been synthesized. Both static and dynamic contact angle measurements show that the hydrophobic character increases upon the fullerene linkage. Atomic force microscopy lithography shows that the depth of the monolayer is about 19 Å. UV−vis spectra are well-tuned with the presence of the fullerene on the silica surfaces. The surface atomic composition, investigated by angle-resolved X-ray photoelectron spectra, shows a monotonic increase of the carbon signal upon decreasing the photoelectron takeoff angles, thus confirming the upper layer nature of this signal. Room-temperature photoluminescence spectra, under controlled atmosphere, show that the oxygen presence influences considerably the luminescence quantum yield.

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Linear vs Exponential Formation of Molecular-Based Assemblies

et al. 2010

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Here we present the critical role of the molecular structure and reaction parameters on the nature of thin-film growth, using a versatile two-step assembly method with organic and metal-organic chromophores cross-linked with palladium. It was found that the polypyridyl complexes exhibit exponential growth, whereas, under identical conditions, the organic systems exhibit linear behavior. The internal film morphology plays a pivotal role in the storage and usage of the palladium, where a more porous structure results in exponential growth. Interestingly, through proper tuning of the reaction conditions, the growth of the molecular assemblies can be controlled, resulting in a changeover from exponential to linear growth. These findings unequivocally demonstrate the importance of both the internal film structure and deposition conditions on the assembly of molecular-based films.

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Molecularly Engineered Silica Surfaces with an Assembled Porphyrin Monolayer as Optical NO₂ Molecular Recognizers

et al. 2004

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A Liquid MOCVD Precursor for Thin Films of CdO

et al. 2002

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Antonino Gulino

Pathway‐Dependent Self‐Assembly of Perylene Diimide/Peptide Conjugates in Aqueous Medium

Self-Propagating Assembly of a Molecular-Based Multilayer

Structural and electronic characterization of self-assembled molecular nanoarchitectures by X-ray photoelectron spectroscopy

Stepwise Assembly of Coordination-Based Metal−Organic Networks

Engineered Silica Surfaces with an Assembled C₆₀ Fullerene Monolayer

Linear vs Exponential Formation of Molecular-Based Assemblies

Molecularly Engineered Silica Surfaces with an Assembled Porphyrin Monolayer as Optical NO₂ Molecular Recognizers

A Liquid MOCVD Precursor for Thin Films of CdO

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Antonino Gulino

Pathway‐Dependent Self‐Assembly of Perylene Diimide/Peptide Conjugates in Aqueous Medium

Self-Propagating Assembly of a Molecular-Based Multilayer

Structural and electronic characterization of self-assembled molecular nanoarchitectures by X-ray photoelectron spectroscopy

Stepwise Assembly of Coordination-Based Metal−Organic Networks

Engineered Silica Surfaces with an Assembled C60 Fullerene Monolayer

Linear vs Exponential Formation of Molecular-Based Assemblies

Molecularly Engineered Silica Surfaces with an Assembled Porphyrin Monolayer as Optical NO2 Molecular Recognizers

A Liquid MOCVD Precursor for Thin Films of CdO

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Product

Resources

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Engineered Silica Surfaces with an Assembled C₆₀ Fullerene Monolayer

Molecularly Engineered Silica Surfaces with an Assembled Porphyrin Monolayer as Optical NO₂ Molecular Recognizers