Your search keyword '"Fontanesi, C."' showing total 24 results

1. Molecular electrochemistry. An overview of a cross-field: Electrochemistry/spectroscopic/theoretical integrated approach

Author

Tommaso Salzillo, Andrea Marchetti, Jana Vejpravova, Pablo Fanjul Bolado, Claudio Fontanesi, Salzillo, T, Marchetti, A, Vejpravova, J, Bolado, PF, and Fontanesi, C

Subjects

BAMS, IR, Raman, Spectroelectrochemistry, theoretical calculations, theoretical calculation, Electrochemistry, Analytical Chemistry

Abstract

This work summarizes state-of-the-art results achieved by combining, in a synergetic approach, the outcome obtained by electrochemical, spectroscopic and theoretical methods. A number of selected case-studies are reported, where such a synergetic approach enables to draw a complete picture of complex experimental systems. Finally, the relevance of the combined experimental and theoretical approach in solid-state electrochemistry, a territory amidst novel concepts in solidstate electronics, is recapped.

Published

2022

2. Chiral induction at the nanoscale and spin selectivity in electron transmission in chiral methylated BEDT-TTF derivatives.

Author

Carella A, Mishra S, Ferrari C, Vanossi D, Rossella F, Pop F, Avarvari N, Htoon H, Hollingsworth JA, Bowes EG, Majumder S, Jones AC, and Fontanesi C

Abstract

Great efforts have been made in the last few decades to realize electronic devices based on organic molecules. A possible approach in this field is to exploit the chirality of organic molecules for the development of spintronic devices, an applicative way to implement the chiral-induced spin selectivity (CISS) effect. In this work we exploit enantiopure tetrathiafulvalene (TTF) derivatives as chiral inducers at the nanoscale. The aim is to make use of TTF's well-known and unique semiconducting properties, to be expressed in the fields of enantio-selectivity and the chiral-induced spin selectivity (CISS) effect. The experimental results shown in this paper further demonstrate how chirality and spin are deeply interrelated, as foreseen within the CISS effect theory, paving the way for the application of TTF derivatives in the field of spintronics. In this work, we demonstrate that tetramethyl-bis(ethylenedithio)-tetrathiafulvalene (TM-BEDT-TTF) (1) behaves as an efficient spin filter, as evidenced by magneto-atomic force microscopy (mc-AFM) measurements. Additionally, it is shown to be effective in transferring chirality to CdS/CdSe core-shell nanoparticles, as inferred from the analysis of circularly resolved photoluminescence spectra. This makes 1 a promising candidate for a variety of applications, ranging from plasmonics to quantum computing.

Published

2025

3. Dancing through neurocognitive changes: dance/movement therapy supporting caregivers and people living with Alzheimer's and other dementias.

Author

Fontanesi C and Newman-Bluestein D

Abstract

Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

Published

2024

4. Enantio-Recognition and Charge Transfer Complex Formation Involving Tetrathiafulvalene-Appended Chiral 1,2-Cyclohexane-Diamine: An Integrated Experimental and Theoretical Study.

Author

Ferrari C, Bogdan A, Pop F, Curto C, Carella A, Rossella F, Avarvari N, and Fontanesi C

Abstract

In this work, we exploit the electronic features of tetrathiafulvalene (TTF) as a backbone in synthesizing chiral derivatives. The aim is to make use of TTF's well-known and unique redox and semiconducting properties in the fields of enantio-selective recognition and chiral charge transfer (CT) complex preparation, with the ultimate objective of obtaining devices with various potential applications, ranging from plasmonics to quantum computing. In particular, both cyclohexane-bis (TTF-amide)-based enantiomers 1-(S,S) and 1-(R,R), stable under an oxidation regime, have been selected, and under these conditions, the electrochemical enantiospecific response of the four possible systems, coming from the combination with L- and D-tartaric acid, respectively, was tested. The 1:tartaric acid adducts show lower oxidation potentials than the pristine 1, together with clear enantio-discrimination demonstrated by sizeable potential differences in the range of 29-46 mV between the diastereomeric adducts. Because the oxidation potential of 1 suggests the possibility of the formation of CT complexes, impedance and FT-IR spectra were recorded to confirm this hypothesis in the case of the CT complex 1:I 2 . The experimental results obtained through the FT-IR analysis were also compared with the theoretical results deriving from the DFT-based calculations., (© 2024 The Author(s). Chirality published by Wiley Periodicals LLC.)

Published

2024

5. Electrodeposition of Sn-Ru Alloys by Using Direct, Pulsed, and Pulsed Reverse Current for Decorative Applications.

Author

Verrucchi M, Mazzoli G, Comparini A, Emanuele R, Bonechi M, Del Pace I, Giurlani W, Fontanesi C, Kowalik R, and Innocenti M

Abstract

Pulsed current has proven to be a promising alternative to direct current in electrochemical deposition, offering numerous advantages regarding deposit quality and properties. Concerning the electrodeposition of metal alloys, the role of pulsed current techniques may vary depending on the specific metals involved. We studied an innovative tin-ruthenium electroplating bath used as an anti-corrosive layer for decorative applications. The bath represents a more environmentally and economically viable alternative to nickel and palladium formulations. The samples obtained using both direct and pulsed currents were analyzed using various techniques to observe any differences in thickness, color, composition, and morphology of the deposits depending on the pulsed current waveform used for deposition.

Published

2024

6. Introducing the new concept of a chiral-polaron giant-IRAV signature, optical-active giant-response in vibrational circular dichroism.

Author

Biffoli F, Bonechi M, Pagliai M, Innocenti M, Giovanardi R, and Fontanesi C

Abstract

Polycyclic aromatic hydrocarbons (PAHs) are a class of compounds of primary importance in the field of organic semiconductors, with applications in both organic electronics and photovoltaics. This paper delves into two strictly related topics. First, the theoretical rationalization of the physical factors underlying the emergence of the polaron "giant-response infrared active vibrations (IRAVs)" signature in positively charged PAHs. Results are presented concerning the tight comparison between the experimental results and theoretical results obtained within different DFT paradigms (BLYP, B3LYP, CAM-B3LYP and LC-BLYP) and the pure Hartree-Fock Hamiltonian. This allowed the rationalization of the emergence of the giant IRAV response as essentially propelled by long-range electronic interactions. Moreover, the role of vibrational modes and molecular dimensions (topology) is addressed. Second, the analysis is extended to chiral [4]helicene. This allows the introduction of a new concept yet to be explored experimentally: the chiral-polaron giant-IRAV signature in vibrational circular dichroism (VCD) spectra.

Published

2024

7. On the Electrochemical Growth of a Crystalline p-n Junction From Aqueous Solutions.

Author

Felici R, Baroni T, Carlà F, Cioffi N, Di Benedetto F, Fontanesi C, Giaccherini A, Giurlani W, Gonidec M, Lavacchi A, Berretti E, Marcantelli P, Montegrossi G, Bonechi M, Picca RA, Poggini L, Russo F, Sportelli MC, Torsi L, and Innocenti M

Abstract

Our society largely relies on inorganic semiconductor devices which are, so far, fabricated using expensive and complex processes requiring ultra-high vacuum equipment. Here we report on the possibility of growing a p-n junction taking advantage of electrochemical processes based on the use of aqueous solutions. The growth of the junction has been carried out using the Electrochemical Atomic Layer Deposition (E-ALD) technique, which allowed to sequentially deposit two different semiconductors, CdS and Cu 2 S, on an Ag(111) substrate, in a single procedure. The growth process was monitored in situ by Surface X-Ray Diffraction (SXRD) and resulted in the fabrication of a thin double-layer structure with a high degree of crystallographic order and a well-defined interface. The high-performance electrical characteristics of the device were analysed ex-situ and show the characteristic feature of a diode., (© 2024 Wiley-VCH GmbH.)

Published

2024

8. Charge-Transfer Complexes: Halogen-Doped Anthracene as a Case of Study.

Author

Gilioli S, Giovanardi R, Ferrari C, Montecchi M, Gemelli A, Severini A, Roncaglia F, Carella A, Rossella F, Vanossi D, Marchetti A, Carmieli R, Pasquali L, and Fontanesi C

Abstract

Charge transfer (CT) crystals exhibit unique electronic and magnetic properties with interesting applications. We present a rational and easy guide which allows to foresee the effective charge transfer co-crystal production and that is based on the comparison of the frontier molecular orbital (MO) energies of a donor and acceptor couple. For the sake of comparison, theoretical calculations have been carried out by using the cheap and fast PM6 semiempirical Hamiltonian and pure HF/cc-pVTZ level of the theory. The results are then compared with experimental results obtained both by chemical (bromine and iodine were used as the acceptor) and electrochemical doping (exploiting an original experimental set-up by this laboratory: the electrochemical transistor). Infra-red vibrational experimental results and theoretically calculated spectra are compared to assess both the effective donor-acceptor (D/A) charge-transfer and transport mechanism (giant IRAV polaron signature). XPS spectra have been collected (carbon (1 s) and iodine (3d 5/2 )) signals, yielding further evidence of the effective formation of the CT anthracene:iodine complex., (© 2024 Wiley-VCH GmbH.)

Published

2024

9. Electrochemical Performance of Metal-Free Carbon-Based Catalysts from Different Hydrothermal Carbonization Treatments for Oxygen Reduction Reaction.

Author

Girimonte A, Stefani A, Mucci C, Giovanardi R, Marchetti A, Innocenti M, and Fontanesi C

Abstract

This research investigates the difference between products obtained through two hydrothermal carbonization treatments. Our aim is to synthesize metal-free, carbon-based catalysts for the oxygen reduction reaction (ORR) to serve as efficient and cost-effective alternatives to platinum-based catalysts. Catalysts synthesized using the traditional hydrothermal approach exhibit a higher electrocatalytic activity for ORR in alkaline media, despite their more energy-intensive production process. The superior performance is attributed to differences in the particle morphology and the chemical composition of the particle surfaces. The presence of functional groups on the surfaces of catalysts obtained via a traditional approach significantly enhances ORR activity by facilitating deprotonation reactions in an alkaline environment. Our research aims to provide a reference for future investigations, shifting the focus to the fine-tuning of surface chemical compositions and morphologies of metal-free catalysts to enhance ORR activity.

Published

2024

10. Challenges in the Direct Detection of Chirality-induced Spin Selectivity: Investigation of Foldamer-based Donor-acceptor Dyads.

Author

Privitera A, Faccio D, Giuri D, Latawiec EI, Genovese D, Tassinari F, Mummolo L, Chiesa M, Fontanesi C, Salvadori E, Cornia A, Wasielewski MR, Tomasini C, and Sessoli R

Abstract

Over the past two decades, the chirality-induced spin selectivity (CISS) effect was reported in several experiments disclosing a unique connection between chirality and electron spin. Recent theoretical works highlighted time-resolved Electron Paramagnetic Resonance (trEPR) as a powerful tool to directly detect the spin polarization resulting from CISS. Here, we report a first attempt to detect CISS at the molecular level by linking the pyrene electron donor to the fullerene acceptor with chiral peptide bridges of different length and electric dipole moment. The dyads are investigated by an array of techniques, including cyclic voltammetry, steady-state and transient optical spectroscopies, and trEPR. Despite the promising energy alignment of the electronic levels, our multi-technique analysis reveals no evidence of electron transfer (ET), highlighting the challenges of spectroscopic detection of CISS. However, the analysis allows the formulation of guidelines for the design of chiral organic model systems suitable to directly probe CISS-polarized ET., (© 2023 The Authors. Chemistry - A European Journal published by Wiley-VCH GmbH.)

Published

2023

11. Spin-dependent electrochemistry and electrochemical enantioselective recognition with chiral methylated bis(ethylenedithio)-tetrathiafulvalenes.

Author

Stefani A, Bogdan A, Pop F, Tassinari F, Pasquali L, Fontanesi C, and Avarvari N

Abstract

Enantio-discrimination and spin-dependent electrochemistry (SDE), as a manifestation of the chirality-induced spin selectivity (CISS) effect, are important phenomena that can be probed by "chiral" electrochemistry. Here, we prepared chiralized surfaces of gold and nickel, to serve as working electrodes, through effective chemisorption of enantiopure dimethyl-bis(ethylenedithio)-tetrathiafulvalene (DM-BEDT-TTF) 1, tetramethyl-bis(ethylenedithio)-tetrathiafulvalene (TM-BEDT-TTF) 2, and their capped silver nanoparticle (AgNPs) aggregate by simple incubation of the metallic substrates. The effective chemisorption was checked by means of ultrahigh vacuum x-ray photoelectron spectroscopy (XPS) and by electro-desorption experiments, i.e., cyclic voltammetry (CV) scans showing a first electro-desorption peak at about -1.0 V. The Au|1 and Au|2 chiral electrodes were successfully used in CV experiments exploiting chiral redox probes. Finally, the hybrid interfaces Ni|enantiopure 1 or 2|AgNPs served as working electrodes in SDE experiments. In particular, the hybrid chiral interfaces Ni|(R)-2|AgNPs and Ni|(S)-2|AgNPs exhibited a significant spin-filtering ability, as a manifestation of the CISS effect, with average spin polarization values of 15%., (© 2023 Author(s). Published under an exclusive license by AIP Publishing.)

Published

2023

12. Does Coherence Affect the Multielectron Oxygen Reduction Reaction?

Author

Gupta A, Kumar A, Bhowmick DK, Fontanesi C, Paltiel Y, Fransson J, and Naaman R

Abstract

The oxygen reduction reaction (ORR) is the key for oxygen-based respiration and the operation of fuel cells. It involves the transmission of two pairs of electrons. We probed what type of interaction between the electrons is required to enable their efficient transfer into the oxygen. We show experimentally that the transfer of the electrons is controlled by the "hidden property" and present a theoretical model suggesting that it is related to coherent phase relations between the two electrons. Using spin polarization electrochemical measurements, with electrodes coated with different thicknesses of chiral coating, we confirm the special relation between the electrons. This relation is destroyed by multiple scattering events that result in the formation of hydrogen peroxide, which indicates a reduction in the ORR efficiency. Another indication for the possible role of coherence is the fluctuations in the reaction efficiency as a function of thickness of the chiral coated electrode.

Published

2023

13. Spin-dependent charge transmission through chiral 2T3N self-assembled monolayer on Au.

Author

Stefani A, Innocenti M, Giurlani W, Calisi N, Pedio M, Felici R, Favaretto L, Melucci M, Zanardi C, Jones AC, Mishra S, Zema N, and Fontanesi C

Abstract

A gold surface is functionalized by chemisorption of the enantiopure N,N'-bis-[2,2';5',2″]tert-thiophene-5-yl methylcyclohexane-1,2-diamine (2T3N), a chiral oligothiophene derivative, via overnight incubation in a 2T3N ethanol solution. The Au|2T3N interface is characterized by x-ray photoelectron circular dichroism and comparing x-ray photoemission spectroscopy and electro-desorption results. Charge transmission at the Au|2T3N| solution interface is characterized by recording the cyclic voltammetry of the Fe(III)/Fe(II) reversible redox couple, finding a charge transfer rate constant, k°, variation from 1 × 10-1 to 3.3 × 10-2 cm s-1, when comparing the bare Au and the Au|2T3N interfaces, respectively. The "anomalous" high value of k° found for the chiral Au|2T3N interface can be rationalized on the basis of the chiral-induced spin selectivity effect, as further proved by magnetic-conductive atomic force microscopy measurements at room temperature. A spin polarization of about 30% is found., (© 2023 Author(s). Published under an exclusive license by AIP Publishing.)

Published

2023

14. Analytic procedure for the evaluation of copper intermetallic diffusion in electroplated gold coatings with energy dispersive X-ray microanalysis.

Author

Giurlani W, Biffoli F, Fei L, Pizzetti F, Bonechi M, Fontanesi C, and Innocenti M

Subjects

Electron Probe Microanalysis methods, Diffusion, Hot Temperature, Copper, Gold

Abstract

A method for the determination of the intermetallic diffusion coefficient in the Cu-Au system is described based on energy dispersive X-ray techniques. XRF and EDS analysis were used to measure the thickness of the electroplated gold coating and the copper diffused through it, respectively. This information was used to obtain the diffusion coefficient through an equation based on Fick's law. Colour measurements and metallographic section analysis of the samples were also performed to evaluate alternative methods for a qualitative determination of diffusion rate. The thickness of the gold layer was chosen in agreement with what is used in decorative and functional applications (<1 μm). The measurements were performed on samples heated in a range of temperatures between 100 °C and 200 °C from 12 to 96 h. The results obtained follow a linear trend between the logarithm of the diffusion coefficient and the inverse of the temperature and are in line with the values found in the literature., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2023

15. Chiral "doped" MOFs: an electrochemical and theoretical integrated study.

Author

Kawondera R, Bonechi M, Maccioni I, Giurlani W, Salzillo T, Venuti E, Mishra D, Fontanesi C, Innocenti M, Mehlana G, and Mtangi W

Abstract

This work reports on the electrochemical behaviour of Fe and Zn based metal-organic framework (MOF) compounds, which are "doped" with chiral molecules, namely: cysteine and camphor sulfonic acid. Their electrochemical behaviour was thoroughly investigated via "solid-state" electrochemical measurements, exploiting an " ad hoc " tailored experimental set-up: a paste obtained by carefully mixing the MOF with graphite powder is deposited on a glassy carbon (GC) surface. The latter serves as the working electrode (WE) in cyclic voltammetry (CV) measurements. Infrared (IR), X-ray diffraction (XRD) and absorbance (UV-Vis) techniques are exploited for a further characterization of the MOFs' structural and electronic properties. The experimental results are then compared with DFT based quantum mechanical calculations. The electronic and structural properties of the MOFs synthesized in this study depend mainly on the type of metal center, and to a minor extent on the chemical nature of the dopant., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Kawondera, Bonechi, Maccioni, Giurlani, Salzillo, Venuti, Mishra, Fontanesi, Innocenti, Mehlana and Mtangi.)

Published

2023

16. Growth Dynamics of Ultrathin Films of Benzo[1,2- b :4,5- b ']dithiophene Derivatives on Au(111): A Photoelectron Spectroscopy Investigation.

Author

Stummo A, Montecchi M, Parenti F, Vanossi D, Fontanesi C, Capelli R, and Pasquali L

Abstract

Ultrathin films of a stereoisomeric mixture of benzo[1,2- b :4,5- b ']dithiophene derivatives were grown by thermal evaporation in vacuum on Au(111), and they were studied in situ by photoelectron spectroscopy. X-ray photons from a non-monochromatic Mg Kα conventional X-ray source and UV photons from a He I discharge lamp equipped with a linear polarizer were used. He I photoemission results were compared with density functional theory (DFT) calculations: density of states (DOS) and 3D molecular orbital density distribution. Au 4f, C 1s, O 1s, and S 2p core-level components suggest a surface rearrangement as a function of film nominal thickness, with the variation of the molecular orientation, from flat-laying at the initial deposition to tilted toward the surface normal at coverages exceeding 2 nm. Eventually, the DFT results were exploited in assigning of the valence band experimental structures. Moreover, polarization-dependent photoemission confirmed the tilted arrangement of the molecules, starting at 2 nm. A variation of the work function of 1.4 eV with respect to the clean substrate was measured, together with a valence band offset of 1.3 eV between the organic layer and gold.

Published

2023

17. Effect of Anesthesia Gases on the Oxygen Reduction Reaction.

Author

Gupta A, Sang Y, Fontanesi C, Turin L, and Naaman R

Subjects

Oxygen, Anesthetics, Inhalation, Anesthesia

Abstract

The oxygen reduction reaction (ORR) is of high importance, among others, because of its role in cellular respiration and in the operation of fuel cells. Recently, a possible relation between respiration and general anesthesia has been found. This work aims to explore whether anesthesia related gases affect the ORR. In ORR, oxygen which is in its triplet ground state is reduced to form products that are all in the singlet state. While this process is "in principle" forbidden because of spin conservation, it is known that if the electrons transferred in the ORR are spin-polarized, the reaction occurs efficiently. Here we show, in electrochemical experiments, that the efficiency of the oxygen reduction is reduced by the presence of general anesthetics in solution. We suggest that a spin-orbit coupling to the anesthetics depolarizes the spins. This causes both a reduction in reaction efficiency and a change in the reaction products. The findings may point to a possible relation between ORR efficiency and anesthetic action.

Published

2023

18. Abstracts from the 2022 Research and Thesis Poster Session of the 57th Annual American Dance Therapy Association Conference, Renewed Connections: Dance/Movement Therapy Fostering Community Healing, October 27-30, 2022.

Author

Bryl K, Fontanesi C, and Stewart C

Abstract

We are honored to present this collection of abstracts from the Research and Thesis Poster Session of the 57th American Dance Therapy Association (ADTA) Conference in Montreal, Canada held from October 27-30, 2022. This paper features eleven abstracts that showcase the latest research in dance therapy from various perspectives and approaches. These abstracts were selected and curated by Research and Practice committee members, Karolina Bryl, Cecilia Fontanesi, and Chevon Stewart, who were responsible for organizing the Research and Thesis Poster Session. The Research and Thesis Poster Session is a vital component of the ADTA Conference, providing a platform for researchers and practitioners to share their work, exchange ideas, and connect with colleagues. The abstracts presented in this paper offer insights into a broad range of topics, including the use of dance therapy in clinical and community settings, the integration of technology in dance therapy, and the examination of cultural and social factors that impact the practice of dance therapy. We hope this collection of abstracts will inspire and inform future research in dance therapy, and we extend our appreciation to all the presenters for their contributions., (© The Author(s) under exclusive licence to American Dance Therapy Association 2023.)

Published

2023

19. Charge transfer modulation in charge transfer co-crystals driven by crystal structure morphology.

Author

Solano F, Inaudi P, Abollino O, Giacomino A, Chiesa M, Salvadori E, Kociok-Kohn G, da Como E, Salzillo T, and Fontanesi C

Abstract

The electronic properties of a charge-transfer (donor-acceptor) semiconducting organic co-crystal, Perylene:F4-TCNQ (PE:F4) (the donor, D, is PE and the acceptor, A, is 2,3,5,6-tetrafluoro-7,7,8,8 tetracyanoquinodimethane (F4)) in its 3 : 2 stoichiometry, are experimentally and theoretically studied. This is performed by means of electron paramagnetic resonance (EPR) and solid state electrochemical techniques, such as cyclic voltammetry (CV) measurements on single crystals. In particular, solid state electrochemistry proves to be an effective tool to probe, on a macroscopic scale, the electronic characteristics of the co-crystal. However, EPR highlights the presence of spin ½ radicals localized on F4 molecules, possibly linked to defects. The experimental findings are discussed on the basis of density functional theory (DFT) based calculations, carried out using both the projector augmented wave (PAW), with "periodic boundary conditions" (pbc), method and the localized orbitals, molecular cluster, approach. In particular, a satisfying agreement is found between the experimental, 0.336 eV (electrochemical), and theoretical, 0.303 eV (PAW), band gaps. Differences with the reported optical bandgap are discussed considering excitonic effects.

Published

2022

20. Chirality enhances oxygen reduction.

Author

Sang Y, Tassinari F, Santra K, Zhang W, Fontanesi C, Bloom BP, Waldeck DH, Fransson J, and Naaman R

Subjects

Catalysis, Electrodes, Electron Transport, Oxidation-Reduction, Electrons, Oxygen chemistry

Abstract

Controlled reduction of oxygen is important for developing clean energy technologies, such as fuel cells, and is vital to the existence of aerobic organisms. The process starts with oxygen in a triplet ground state and ends with products that are all in singlet states. Hence, spin constraints in the oxygen reduction must be considered. Here, we show that the electron transfer efficiency from chiral electrodes to oxygen (oxygen reduction reaction) is enhanced over that from achiral electrodes. We demonstrate lower overpotentials and higher current densities for chiral catalysts versus achiral ones. This finding holds even for electrodes composed of heavy metals with large spin-orbit coupling. The effect results from the spin selectivity conferred on the electron current by the chiral assemblies, the chiral-induced spin selectivity effect.

Published

2022

21. On the Dynamics of the Carbon-Bromine Bond Dissociation in the 1-Bromo-2-Methylnaphthalene Radical Anion.

Author

Bonechi M, Giurlani W, Innocenti M, Pasini D, Mishra S, Giovanardi R, and Fontanesi C

Subjects

Anions, Electrons, Naphthalenes, Bromine chemistry, Carbon chemistry

Abstract

This paper studies the mechanism of electrochemically induced carbon-bromine dissociation in 1-Br-2-methylnaphalene in the reduction regime. In particular, the bond dissociation of the relevant radical anion is disassembled at a molecular level, exploiting quantum mechanical calculations including steady-state, equilibrium and dissociation dynamics via dynamic reaction coordinate (DRC) calculations. DRC is a molecular-dynamic-based calculation relying on an ab initio potential surface. This is to achieve a detailed picture of the dissociation process in an elementary molecular detail. From a thermodynamic point of view, all the reaction paths examined are energetically feasible. The obtained results suggest that the carbon halogen bond dissociates following the first electron uptake follow a stepwise mechanism. Indeed, the formation of the bromide anion and an organic radical occurs. The latter reacts to form a binaphthalene intrinsically chiral dimer. This paper is respectfully dedicated to Professors Anny Jutand and Christian Amatore for their outstanding contribution in the field of electrochemical catalysis and electrosynthesis.

Published

2022

22. Pathologists' assistants, an essential healthcare workforce: the experience of a surgical pathology department in Italy.

Author

Bortesi M, Marchetti M, Arpaia I, Marchi L, Ganassi M, Zanetti E, Fontanesi C, Costantini M, and Piana S

Subjects

Delivery of Health Care, Humans, Pandemics, Pathologists, Retrospective Studies, Workforce, COVID-19 epidemiology, Pathology, Surgical

Abstract

Aims: The progressive increase of both the workload and the complexity of laboratory procedures, along with shortage of staff, has made evident the need to increase the efficiency in the pathology departments. To support the pathologists, a new technical professional role, the pathologists' assistant (PA), has been introduced., Methods: We decided to carry out a retrospective analysis on PAs' performance. This was compared with that of junior/senior pathologists in the amount and type of surgical specimens examined, the number of lymph node retrieved in colorectal resections, the number of cases needing a second grossing procedure and the average time spent in grossing. As the COVID-19 pandemic period in fact resulted in a dramatic reduction of histological cases in our department, we divided PA activities into two periods, according to the COVID-19 pandemic., Results: 'Simple' specimens made up the majority (92%) of the specimens examined by PAs in pre-COVID-19 period while 'complex' specimens, often neoplastic, represented the minor part (7%). However, 'simple' specimens dropped to 81% and 'complex' specimens rose to 18% in the COVID-19 period, when PAs had the chance to test themselves with more complicated surgical samples, under the supervision of a pathologist. Lymph node retrieval rate and average time spent in grossing are in line with literature data and confirm that PAs performance is comparable with pathologists' one, in selected settings., Conclusion: In our experience, PA has represented a fundamental time-saving resource for the pathologists, who can devote time almost exclusively to diagnostic reporting., Competing Interests: Competing interests: None declared., (© Author(s) (or their employer(s)) 2022. No commercial re-use. See rights and permissions. Published by BMJ.)

Published

2022

23. Ethanol electro-oxidation reaction on the Pd(111) surface in alkaline media: insights from quantum and molecular mechanics.

Author

Campeggio J, Volkov V, Innocenti M, Giurlani W, Fontanesi C, Zerbetto M, Pagliai M, Lavacchi A, and Chelli R

Abstract

The ethanol electro-oxidation catalyzed by Pd in an alkaline environment involves several intermediate reaction steps promoted by the hydroxyl radical, OH. In this work, we report on the dynamical paths of the first step of this oxidation reaction, namely the hydrogen atom abstraction CH 3 CH 2 OH + OH → CH 3 CHOH + H 2 O, occurring at the Pd(111) surface and address the thermodynamic stability of the adsorbed reactants by means of quantum and molecular mechanics calculations, with special focus on the effect of the solvent. We have found that the impact of the solvent is significant for both ethanol and OH, contributing to a decrease in their adsorption free energies by a few dozen kcal mol -1 with respect to the adsorption energy under vacuum. Furthermore, we observe that hydrogen atom abstraction is enhanced for those simulation paths featuring large surface-reactant distances, namely, when the reactants weakly interact with the catalyst. The picture emerging from our study is therefore that of a catalyst whose coverage in an aqueous environment is largely dominated by OH with respect to ethanol. Nevertheless, only a small amount of them, specifically those weakly bound to the catalyst, is really active in the ethanol electro-oxidation reaction. These results open the idea of a rational design of co-catalysts based on the tuning of surface chemical properties to eventually enhance exchange current density.

Published

2022

24. Low-Cost Potentiometric Sensor for Chloride Measurement in Continuous Industrial Process Control.

Author

Vizza M, Marcantelli P, Giovani C, Giurlani W, Giusti P, Fontanesi C, and Innocenti M

Subjects

Electrodes, Halogens analysis, Humans, Potentiometry, Chlorides analysis, Drinking Water analysis

Abstract

Recently, the new updates in legislation about drinking water control and human health have increased the demand for novel electrochemical low-cost sensors, such as potentiometric ones. Nowadays, the determination of chloride ion in aqueous solutions has attracted great attention in several fields, from industrial processes to drinking water control. Indeed, chloride plays a crucial role in corrosion, also influencing the final taste of beverages, especially coffee. The main goal is to obtain devices suitable for continuous and real-time analysis. For these reasons, we investigated the possibility to develop an easy, low-cost potentiometric chloride sensor, able to perform analysis in aqueous mediums for long immersion time and reducing the need of periodic calibration. We realized a chloride ion selective electrode made of Ag/AgCl sintered pellet and we tested its response in model solutions compatible with drinking water. The sensor was able to produce a stable, reproducible, and accurate quantification of chloride in 900 s, without the need for a preliminary calibration test. This opens the route to potential applications of this sensor in continuous, in situ, and real time measurement of chloride ions in industrial processes, with a reduced need for periodic maintenance.

Published

2022