Donato Monti scite author profile

Porphyrins and related macrocycles have been intensively exploited as sensing materials in chemical sensors, since in these devices they mimic most of their biological functions, such as reversible binding, catalytic activation, and optical changes. Such a magnificent bouquet of properties allows applying porphyrin derivatives to different transducers, ranging from nanogravimetric to optical devices, also enabling the realization of multifunctional chemical sensors, in which multiple transduction mechanisms are applied to the same sensing layer. Potential applications are further expanded through sensor arrays, where cross-selective sensing layers can be applied for the analysis of complex chemical matrices. The possibility of finely tuning the macrocycle properties by synthetic modification of the different components of the porphyrin ring, such as peripheral substituents, molecular skeleton, coordinated metal, allows creating a vast library of porphyrinoid-based sensing layers. From among these, one can select optimal arrays for a particular application. This feature is particularly suitable for sensor array applications, where cross-selective receptors are required. This Review briefly describes chemical sensor principles. The main part of the Review is divided into two sections, describing the porphyrin-based devices devoted to the detection of gaseous or liquid samples, according to the corresponding transduction mechanism. Although most devices are based on porphyrin derivatives, seminal examples of the application of corroles or other porphyrin analogues are evidenced in dedicated sections.

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Theoretical and Experimental Evidence for S_N2 Transition States in Oxidative Addition of Methyl Iodide to cis-[M(CO)₂I₂]^- (M = Rh, Ir)

Griffin

et al. 1996

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Chemical sensitivity of porphyrin assemblies

2010

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Porphyrins show unique binding properties that are widely exploited in Nature to accomplish essential functions for life; the potential mimic of these functions with synthetic counterparts has provided the basis of many kind of chemical sensors. This peculiar behaviour can be further enriched when porphyrins do not act as single players, but they are included in a team, the porphyrin aggregates. Recent investigations pointed out that the supramolecular framework could allow interaction pathways not possible to the individual constituents. Here some recent results on supramolecular porphyrin aggregates exploited for chemical sensor development are illustrated and discussed

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Novel Aspects of Corrole Chemistry

Nardis¹,

Monti²,

Paolesse

2005

MROC

147

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Corrole is one of the first examples of porphyrin analogs reported in the literature. This class of compounds has received a great attention, because of their promising exploitation in different fields, ranging from medicine to material chemistry. Among them, corrole can be considered the prototypical example of contracted porphyrins, with one of the meso carbon bridges missing. Although this macrocycle was first reported more than thirty years ago, only recently more attention has been devoted to the chemistry of corrole. The recent availability of efficient and facile syntheses of meso-substituted corroles has probably been the shuttle for the impressive flourishing of corrole-related papers appearing in literature in the last few years. The aim of this review is to highlight the latest reports in the synthetic chemistry of corrole, with special attention to the synthetic strategies and peripheral functionalizations of this macrocycle.

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New Cationic Liposomes as Vehicles of m-Tetrahydroxyphenylchlorin in Photodynamic Therapy of Infectious Diseases

et al. 2008

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Antimicrobial photodynamic therapy is emerging as a promising therapeutic modality for bacterial infections. For optimizing the antibacterial activity of the photosensitizer m-tetrahydroxyphenylchlorin, it has been encapsulated in mixed cationic liposomes composed of different ratios of dimyristoyl- sn-glycero-phosphatidylcholine and any of four cationic surfactants derived from l-prolinol. The delivery efficiency of the different liposomes formulations has been evaluated on a methicillin-resistant Staphylococcus aureus bacterial strain (MRSA), and one of the tested formulations shows a biological activity comparable to that of the free chlorin. In order to rationalize the physicochemical parameters of the carriers that control the biological activity, the new liposome formulations have been characterized by measuring (a) the zeta potential, (b) their capability of chlorin entrapping efficiency, i.e. entrapment efficacy, (c) the effect of storage on chlorin entrapment and (d) the localization of chlorin in the bilayer. The correlation of the physicochemical and biological features of formulations has allowed us to rationalize, to some extent, some of the parameters that may control the interactions with the biological environment.

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Efficient photoinactivation of methicillin-resistant Staphylococcus aureus by a novel porphyrin incorporated into a poly-cationic liposome

Ferro

Ricchelli

Monti

et al. 2007

The International Journal of Biochemistry & Cell Biology

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Porphyrin-Based Nanostructures for Sensing Applications

et al. 2009

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The construction of nanosized supramolecular hosts via self-assembly of molecular components is a fascinating field of research. Such intriguing class of architectures, beside their intrinsic intellectual stimuli, is of importance in many fields of chemistry and technology, such as material chemistry, catalysis, and sensor applications. Within this wide scenario, tailored solid films of porphyrin derivatives are structures of great potential for, among others, chemical sensor applications. The formation ofsupramoleculesrelays on noncovalent interactions (electrostatic, hydrogen bond, , or coordinative interactions) driven by the chemical information stored on the assembling molecules, such as shape and functional groups. This allows, for example, the formation of large well-defined porphyrin aggregates in solution that can be spontaneously transferred onto a solid surface, so achieving a solid system with tailored features. These films have been used, covering the bridge between nanostructures and microsystems, for the construction of solid-state sensors for volatiles and metal ion recognition and detection. Moreover, the variation of peripheral substituents of porphyrins, such as, for example, chiral appended functionalities, can result in the formation of porphyrin aggregates featuring high supramolecular chirality. This would allow the achievement of porphyrin layers characterised by different chiroptical and molecular recognition properties.

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The Assembly of Porphyrin Systems in Well-Defined Nanostructures: An Update

et al. 2019

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The interest in assembling porphyrin derivatives is widespread and is accounted by the impressive impact of these suprastructures of controlled size and shapes in many applications from nanomedicine and sensors to photocatalysis and optoelectronics. The massive use of porphyrin dyes as molecular building blocks of functional materials at different length scales relies on the interdependent pair properties, consisting of their chemical stability/synthetic versatility and their quite unique physicochemical properties. Remarkably, the driven spatial arrangement of these platforms in well-defined suprastructures can synergically amplify the already excellent properties of the individual monomers, improving conjugation and enlarging the intensity of the absorption range of visible light, or forming an internal electric field exploitable in light-harvesting and charge-and energy-transport processes. The countless potentialities offered by these systems means that self-assembly concepts and tools are constantly explored, as confirmed by the significant number of published articles related to porphyrin assemblies in the 2015–2019 period, which is the focus of this review.

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Donato Monti

Porphyrinoids for Chemical Sensor Applications

Theoretical and Experimental Evidence for S_N2 Transition States in Oxidative Addition of Methyl Iodide to cis-[M(CO)₂I₂]^- (M = Rh, Ir)

Chemical sensitivity of porphyrin assemblies

Novel Aspects of Corrole Chemistry

New Cationic Liposomes as Vehicles of m-Tetrahydroxyphenylchlorin in Photodynamic Therapy of Infectious Diseases

Efficient photoinactivation of methicillin-resistant Staphylococcus aureus by a novel porphyrin incorporated into a poly-cationic liposome

Porphyrin-Based Nanostructures for Sensing Applications

The Assembly of Porphyrin Systems in Well-Defined Nanostructures: An Update

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Donato Monti

Porphyrinoids for Chemical Sensor Applications

Theoretical and Experimental Evidence for SN2 Transition States in Oxidative Addition of Methyl Iodide to cis-[M(CO)2I2]- (M = Rh, Ir)

Chemical sensitivity of porphyrin assemblies

Novel Aspects of Corrole Chemistry

New Cationic Liposomes as Vehicles of m-Tetrahydroxyphenylchlorin in Photodynamic Therapy of Infectious Diseases

Efficient photoinactivation of methicillin-resistant Staphylococcus aureus by a novel porphyrin incorporated into a poly-cationic liposome

Porphyrin-Based Nanostructures for Sensing Applications

The Assembly of Porphyrin Systems in Well-Defined Nanostructures: An Update

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Product

Resources

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Theoretical and Experimental Evidence for S_N2 Transition States in Oxidative Addition of Methyl Iodide to cis-[M(CO)₂I₂]^- (M = Rh, Ir)