32 results on '"Porcarelli L"'
Search Results
2. High performing single-ion conducting block copolymer electrolytes based on poly(ethylene oxide) and specifically designed methacrylic sulfonamide
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Porcarelli, L., Shaplov, A. S., Aboudzadeh, M. A., Bella, F., Nair, J. R., Mecerreyes, D., and Gerbaldi, C.
- Subjects
Single-ion conductor ,Block copolymer ,Polymer electrolyte ,Lithium-ion battery - Published
- 2018
3. Recent Advancements in Single-Ion Polymer Electrolytes for Energy Storage in Lithium Metal Batteries
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Porcarelli, L., Shaplov, A. S., Rubatat, L., Bella, F., Nair, J. R., Gerbaldi, C., and Mecerreyes, D.
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Single-ion conductor ,Polymer electrolyte ,Lithium-metal ,Lithium battery ,Stability - Published
- 2018
4. Use of non-conventional electrolyte salt and additives in high-voltage graphite/LiNi0.4Mn1.6O4 batteries
- Author
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Arbizzani, C., De Giorgio, F., Porcarelli, L., Mastragostino, M., Khomenko, V., Barsukov, V., Bresser, D., and Passerini, S.
- Published
- 2013
- Full Text
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5. A Na+ conducting hydrogel for protection of organic electrochemical transistors.
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Del Agua, I., Porcarelli, L., Curto, V. F., Sanchez-Sanchez, A., Ismailova, E., Malliaras, G. G., and Mecerreyes, D.
- Abstract
Organic electrochemical transistors (OECTs) are being intensively developed for applications in electronics and biological interfacing. These devices rely on ions injected in a polymer film from an aqueous liquid electrolyte for their operation. However, the development of solid or semi-solid electrolytes are needed for future integration of OECTs into flexible, printed or conformable bioelectronic devices. Here, we present a new polyethylene glycol hydrogel with high Na
+ conductivity which is particularly suitable for OECTs. This novel hydrogel was synthesized using cost-effective photopolymerization of poly(ethylene glycol)-dimethacrylate and sodium acrylate. Due to the high water content (83% w/w) and the presence of free Na+ , the hydrogel showed high ionic conductivity values at room temperature (10−2 S cm−1 ) as characterized by electrochemical impedance spectroscopy. OECTs made using this hydrogel as a source of ions showed performance that was equivalent to that of OECTs employing a liquid electrolyte. They also showed improved stability, with only a 3% drop in current after 6 h of operation. This hydrogel paves the way for the replacement of liquid electrolytes in high performance OECTs bringing about advantages in terms of device integration and protection. [ABSTRACT FROM AUTHOR]- Published
- 2018
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6. High performance photolithographically-patterned polymer thin-film transistors gated with an ionic liquid/poly(ionic liquid) blend ion gel.
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Thiburce, Q., Porcarelli, L., Mecerreyes, D., and Campbell, A. J.
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THIN film transistors , *POLYMER films , *IONIC liquids , *ELECTROLYTES , *HYSTERESIS - Abstract
We demonstrate the fabrication of polymer thin-film transistors gated with an ion gel electrolyte made of the blend of an ionic liquid and a polymerised ionic liquid. The ion gel exhibits a high stability and ionic conductivity, combined with facile processing by simple drop-casting from solution. In order to avoid parasitic effects such as high hysteresis, high off-currents, and slow switching, a fluorinated photoresist is employed in order to enable high-resolution orthogonal patterning of the polymer semiconductor over an area that precisely defines the transistor channel. The resulting devices exhibit excellent characteristics, with an on/off ratio of 106, low hysteresis, and a very large transconductance of 3 mS. We show that this high transconductance value is mostly the result of ions penetrating the polymer film and doping the entire volume of the semiconductor, yielding an effective capacitance per unit area of about 200 µF cm-2, one order of magnitude higher than the double layer capacitance of the ion gel. This results in channel currents larger than 1mA at an applied gate bias of only -1 V. We also investigate the dynamic performance of the devices and obtain a switching time of 20 ms, which is mostly limited by the overlap capacitance between the ion gel and the source and drain contacts. [ABSTRACT FROM AUTHOR]
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- 2017
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7. Analysis of the effects of outages on the quality of service of GPRS network systems
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Tataranni F., Porcarelli L., Di Giandomenico F., and Bondavalli A.
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GPRS ,ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS ,Data_CODINGANDINFORMATIONTHEORY - Abstract
The General Packet Radio Service (GPRS) extends the Global System Mobile Communications (GSM) by addressing packet-oriented traffic. Availability is the most important dependability requirement for such Comunication Systems as GPRS. Focusing on the contention phase, where users compete for channel reservation, this paper analyses the GPRS with the objective to understand its behaviour under critical conditions, as determined by periods of outages, which significantly impact on the resulting dependability. In fact, during outages (service unavailability), users tying to access the service accumulate, leading to an overload of the system. When the system resumes its operations, the accuniulated users determine a higher probability of collisions on resources assignment (and therefore a degradation of the QoS perceived by the users). Our analysis, performed using a simulation approach, allowed to gain insights on the impact of outages on the QoS and of the overload that GPRS systems have to face after outages.
- Published
- 2001
8. Use of non-conventional electrolyte salt and additives in high-voltage graphite/LiNi0.4Mn1.6O4 batteries.
- Author
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Arbizzani, C., De Giorgio, F., Porcarelli, L., Mastragostino, M., Khomenko, V., Barsukov, V., Bresser, D., and Passerini, S.
- Subjects
- *
ELECTROLYTES , *ADDITIVES , *ELECTRIC potential , *GRAPHITE , *PERMANGANATES , *STORAGE batteries , *PERFORMANCE of fuel cells - Abstract
Abstract: The performance of full cells featuring high-voltage LiNi0.4Mn1.6O4 cathode and graphite anode with carbonate-based electrolytes, ethylene carbonate (EC) -dimethyl carbonate (DMC) with conventional LiPF6 and non-conventional Li[(C2F5)3PF3] (LiFAP) lithium salts with and without SEI-forming additives 1-fluoro ethylene carbonate (F1EC) and succinic anhydride (SA) is investigated. The results evidence the beneficial impact of EC-DMC-1M LiFAP electrolyte (LF30), with respect to EC-DMC-1M LiPF6 electrolyte (LP30), also in presence of 1.6% F1EC-2% SA additives, on charge retention over cycling and on self-discharge of full cells. After the 25 cycles of the charge capability test, the charge retention reached values up to 70% with LF30 and 87% with LF30 and additives, and fully charged cells with LF30-additives delivered 53% of the stored charge after one week in OCV. [Copyright &y& Elsevier]
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- 2013
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9. Tailored Methodology Based on Vapor Phase Polymerization to Manufacture PEDOT/CNT Scaffolds for Tissue Engineering
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Susanna Bosi, Blanca Arnaiz, Luca Porcarelli, Antonio Dominguez-Alfaro, Jose M. González-Domínguez, Nuria Alegret, Unai Cossío, Maurizio Prato, David Mecerreyes, Ana Martín-Pacheco, Ester Vázquez, Dominguez-Alfaro, A., Alegret, N., Arnaiz, B., Gonzalez-Dominguez, J. M., Martin-Pacheco, A., Cossio, U., Porcarelli, L., Bosi, S., Vazquez, E., Mecerreyes, D., Prato, M., Ministerio de Economía y Competitividad (España), Università degli studi di Trieste, Diputación Foral de Gipuzkoa, European Commission, AXA Research Fund, Agencia Estatal de Investigación (España), Domínguez Alfaro, Antonio [0000-0002-3215-9732], Alegret, Nuria [0000-0002-8329-4459], Arnaiz, Blanca [0000-0001-5789-0321, González Domínguez, José Miguel [0000-0002-0701-7695], Martín Pacheco, Ana [0000-0002-8342-7258], Cossío, Unai [0000-0002-3248-8683], Porcarelli, Luca [0000-0002-1624-382X], Bosi, Susanna [0000-0001-7863-9144], Vázquez, Ester [0000-0003-3223-8024], Mecerreyes, David [0000-0002-0788-7156], Prato, Maurizio [0000-0002-8869-8612], Domínguez Alfaro, Antonio, Alegret, Nuria, Arnaiz, Blanca, González Domínguez, José Miguel, Martín Pacheco, Ana, Cossío, Unai, Porcarelli, Luca, Bosi, Susanna, Vázquez, Ester, Mecerreyes, David, and Prato, Maurizio
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Conductive polymers ,Materials science ,Polymers ,3D scaffold ,Vapor phase polymerization ,0206 medical engineering ,Vapor phase ,Carbon nanotubes ,Biomedical Engineering ,Nanotechnology ,02 engineering and technology ,Carbon nanotube ,Polymerization ,law.invention ,Biomaterials ,astrocytes ,carbon nanotubes ,conductive polymers ,PEDOT ,tissue engineering ,vapor phase polymerization ,astrocyte ,PEDOT:PSS ,Tissue engineering ,law ,conductive polymer ,carbon nanotube ,Porosity ,GeneralLiterature_REFERENCE(e.g.,dictionaries,encyclopedias,glossaries) ,Conductive polymer ,Tissue Scaffolds ,Nanotubes, Carbon ,Bridged Bicyclo Compounds, Heterocyclic ,021001 nanoscience & nanotechnology ,020601 biomedical engineering ,Astrocytes ,0210 nano-technology ,Science, technology and society - Abstract
8 figures.-- Supporting information available on the editor's web page.-- This document is the Accepted Manuscript version of a Published Work that appeared in final form in ACS Biomaterials Science & Engineering, copyright © American Chemical Society after peer review and technical editing by the publisher. To access the final edited and published work see http://dx.doi.org/10.1021/acsbiomaterials.9b01316, Three-dimensional (3D) scaffolds with tailored stiffness, porosity, and conductive properties are particularly important in tissue engineering for electroactive cell attachment, proliferation, and vascularization. Carbon nanotubes (CNTs) and poly(3,4-ethylenedioxythiophene) (PEDOT) have been extensively used separately as neural interfaces showing excellent results. Herein, we combine both the materials and manufacture 3D structures composed exclusively of PEDOT and CNTs using a methodology based on vapor phase polymerization of PEDOT onto a CNT/sucrose template. Such a strategy presents versatility to produce porous scaffolds, after leaching out the sucrose grains, with different ratios of polymer/CNTs, and controllable and tunable electrical and mechanical properties. The resulting 3D structures show Young’s modulus typical of soft materials (20–50 kPa), as well as high electrical conductivity, which may play an important role in electroactive cell growth. The conductive PEDOT/CNT porous scaffolds present high biocompatibility after 3 and 6 days of C8-D1A astrocyte incubation., The Spanish Ministry of Economy and Competitiveness MINECO (project CTQ2016-76721-R), the University of Trieste, Diputación Foral de Gipuzkoa program Red (101/16), and the European Commission (H2020-MSCA-RISE-2016, grant agreement no. 734381, acronym CARBO-IMmap) and ELKARTEK bmG2017 (Ref: Elkartek KK-2017/00008, BOPV resolution: 8 Feb 2018) are gratefully acknowledged for financial support. MP, as the recipient of the AXA Chair, is grateful to the AXA Research Fund for financial support. This work was performed under the Maria de Maeztu Units of Excellence Program from the Spanish State Research Agency—grant no. MDM-2017-0720. NA has received funding from the European Union’s Horizon 2020 research and innovation programme under the Marie Sklodowska-Curie grant agreement No 753293, acronym NanoBEAT.
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10. Cervical Disc Extrusion with Dorsal Migration in a Pet Rabbit.
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Porcarelli L, Dell'Era E, Collarile T, De Palma V, Morara N, Matiasek K, and Corlazzoli D
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An 8-year-old rabbit presented with a 5-day history of acute difficulty in walking. Neurological examination revealed tetraparesis, proprioceptive deficits in both pelvic limbs and the right thoracic limb, decreased withdrawal reflex on the right thoracic limb and hyperreflexia in the pelvic limbs. A cervico-thoracic (C6-T2) localization was suspected. Computer tomography (CT) and magnetic resonance imaging (MRI) scans were performed, revealing a right dorsolateral extradural lesion at the C6-C7 intervertebral disc space. Additionally, meningeal and paravertebral contrast enhancement was observed on MRI, while periosteal reaction was evident at the right C6-C7 facet joint on CT. The findings were primarily consistent with spinal cord compression due to the presence of extruded disc material. Following conservative treatment failure, a right-sided C6-C7 hemilaminectomy was performed to remove the compression and sample the extradural material. Histological examination confirmed the presence of degenerated and partially mineralized disc material mixed with granulation tissue. This is the first reported case of cervical disc extrusion in a rabbit, confirmed by histological examination.
- Published
- 2024
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11. Early Neurophysiological Abnormalities in Suspected Acute Canine Polyradiculoneuropathy.
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Porcarelli L, Cauduro A, Bianchi E, Pauciulo C, Maurelli C, and Corlazzoli D
- Abstract
Acute canine polyradiculoneuritis (ACP) is a common peripheral neuropathy in dogs, and is generally self-limiting and benign. Electrodiagnostic (EDX) tests are typically performed after 7-10 days. Delaying the definitive diagnosis may hamper the treatment of other causes of acute weakness, which may require specific treatments and may carry different prognoses. This retrospective multicenter study aims to assess whether EDX performed within the first 6 days of clinical signs onset can detect alterations indicative of ACP, and aims to characterize the most prevalent alterations. A total of 71 dogs with suspected ACP were retrospectively analyzed and classified into two groups based on EDX timing: early group (EG, 1-6 days after symptom onset) and late group (LG, 7-15 days after symptom onset). In our study, no significant differences were found between the two groups in motor nerve conduction studies (MNCSs) and F-wave analysis, indicating that EDX is able to demonstrate abnormalities even in the first 6 days from onset. Although the LG showed significantly greater degrees of electromyographic (EMG) alterations compared to the EG, frequent muscle alterations were still observed in the EG group. These findings support the use of EDX in patients with suspected ACP within the first 6 days from the clinical onset. Prompt neurophysiological examinations for suspected ACP patients can be performed effectively and can help allow for early diagnosis and facilitate appropriate treatment.
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- 2024
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12. Task-Specific Phosphonium Iongels by Fast UV-Photopolymerization for Solid-State Sodium Metal Batteries.
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Porcarelli L, Olmedo-Martínez JL, Sutton P, Bocharova V, Fdz De Anastro A, Galceran M, Sokolov AP, Howlett PC, Forsyth M, and Mecerreyes D
- Abstract
Sodium metal batteries are an emerging technology that shows promise in terms of materials availability with respect to lithium batteries. Solid electrolytes are needed to tackle the safety issues related to sodium metal. In this work, a simple method to prepare a mechanically robust and efficient soft solid electrolyte for sodium batteries is demonstrated. A task-specific iongel electrolyte was prepared by combining in a simple process the excellent performance of sodium metal electrodes of an ionic liquid electrolyte and the mechanical properties of polymers. The iongel was synthesized by fast (<1 min) UV photopolymerization of poly(ethylene glycol) diacrylate (PEGDA) in the presence of a saturated 42%mol solution of sodium bis(fluorosulfonyl)imide (NaFSI) in trimethyl iso-butyl phosphonium bis(fluorosulfonyl)imide (P111i4FSI). The resulting soft solid electrolytes showed high ionic conductivity at room temperature (≥10−3 S cm−1) and tunable storage modulus (104−107 Pa). Iongel with the best ionic conductivity and good mechanical properties (Iongel10) showed excellent battery performance: Na/iongel/NaFePO4 full cells delivered a high specific capacity of 140 mAh g−1 at 0.1 C and 120 mAh g−1 at 1 C with good capacity retention after 30 cycles.
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- 2022
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13. Zwitterionic materials with disorder and plasticity and their application as non-volatile solid or liquid electrolytes.
- Author
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Makhlooghiazad F, O'Dell LA, Porcarelli L, Forsyth C, Quazi N, Asadi M, Hutt O, Mecerreyes D, Forsyth M, and Pringle JM
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- Electric Conductivity, Electrolytes chemistry, Solvents chemistry, Electric Power Supplies, Lithium chemistry
- Abstract
Zwitterionic materials can exhibit unique characteristics and are highly tunable by variation to the covalently bound cationic and anionic moieties. Despite the breadth of properties and potential uses reported to date, for electrolyte applications they have thus far primarily been used as additives or for making polymer gels. However, zwitterions offer intriguing promise as electrolyte matrix materials that are non-volatile and charged but non-migrating. Here we report a family of zwitterions that exhibit molecular disorder and plasticity, which allows their use as a solid-state conductive matrix. We have characterized the thermal, morphological and structural properties of these materials using techniques including differential scanning calorimetry, scanning electron microscopy, solid-state NMR and X-ray crystallography. We report the physical and transport properties of zwitterions combined with lithium salts and a lithium-functionalized polymer to form solid or high-salt-content liquid electrolytes. We demonstrate that the zwitterion-based electrolytes can allow high target ion transport and support stable lithium metal cell cycling. The ability to use disordered zwitterionic materials as electrolyte matrices for high target ion conduction, coupled with an extensive scope for varying the chemical and physical properties, has important implications for the future design of non-volatile materials that bridge the choice between traditional molecular and ionic solvent systems., (© 2021. The Author(s), under exclusive licence to Springer Nature Limited.)
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- 2022
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14. Emerging iongel materials towards applications in energy and bioelectronics.
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Tomé LC, Porcarelli L, Bara JE, Forsyth M, and Mecerreyes D
- Subjects
- Biopolymers, Physical Phenomena, Polymers chemistry, Electronics, Ionic Liquids chemistry
- Abstract
In the past two decades, ionic liquids (ILs) have blossomed as versatile task-specific materials with a unique combination of properties, which can be beneficial for a plethora of different applications. The additional need of incorporating ILs into solid devices led to the development of a new class of ionic soft-solid materials, named here iongels. Nowadays, iongels cover a wide range of materials mostly composed of an IL component immobilized within different matrices such as polymers, inorganic networks, biopolymers or inorganic nanoparticles. This review aims at presenting an integrated perspective on the recent progress and advances in this emerging type of material. We provide an analysis of the main families of iongels and highlight the emerging types of these ionic soft materials offering additional properties, such as thermoresponsiveness, self-healing, mixed ionic/electronic properties, and (photo)luminescence, among others. Next, recent trends in additive manufacturing (3D printing) of iongels are presented. Finally, their new applications in the areas of energy, gas separation and (bio)electronics are detailed and discussed in terms of performance, underpinning it to the structural features and processing of iongel materials.
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- 2021
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15. Single-Ion Conducting Polymer Nanoparticles as Functional Fillers for Solid Electrolytes in Lithium Metal Batteries.
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Porcarelli L, Sutton P, Bocharova V, Aguirresarobe RH, Zhu H, Goujon N, Leiza JR, Sokolov A, Forsyth M, and Mecerreyes D
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Composite solid electrolytes including inorganic nanoparticles or nanofibers which improve the performance of polymer electrolytes due to their superior mechanical, ionic conductivity, or lithium transference number are actively being researched for applications in lithium metal batteries. However, inorganic nanoparticles present limitations such as tedious surface functionalization and agglomeration issues and poor homogeneity at high concentrations in polymer matrixes. In this work, we report on polymer nanoparticles with a lithium sulfonamide surface functionality (LiPNP) for application as electrolytes in lithium metal batteries. The particles are prepared by semibatch emulsion polymerization, an easily up-scalable technique. LiPNPs are used to prepare two different families of particle-reinforced solid electrolytes. When mixed with poly(ethylene oxide) and lithium bis(trifluoromethane)sulfonimide (LiTFSI/PEO), the particles invoke a significant stiffening effect ( E ' > 10
6 Pa vs 105 Pa at 80 °C) while the membranes retain high ionic conductivity (σ = 6.6 × 10-4 S cm-1 ). Preliminary testing in LiFePO4 lithium metal cells showed promising performance of the PEO nanocomposite electrolytes. By mixing the particles with propylene carbonate without any additional salt, we obtain true single-ion conducting gel electrolytes, as the lithium sulfonamide surface functionalities are the only sources of lithium ions in the system. The gel electrolytes are mechanically robust (up to G ' = 106 Pa) and show ionic conductivity up to 10-4 S cm-1 . Finally, the PC nanocomposite electrolytes were tested in symmetrical lithium cells. Our findings suggest that all-polymer nanoparticles could represent a new building block material for solid-state lithium metal battery applications.- Published
- 2021
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16. Easy-to-Make Polymer Hydrogels by UV-Curing for the Cleaning of Acrylic Emulsion Paint Films.
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Cárdaba I, Porcarelli L, Gallastegui A, Mecerreyes D, and Maguregui MI
- Abstract
The cleaning of acrylic emulsion paint surfaces poses a great challenge in the conservation field, due to their high water sensitivity. In this article, we present easy-to-make polymer hydrogels, made by UV-photopolymerization, that show excellent cleaning properties. The formulation of hydrogels obtained by UV-curing and their performance as dry cleaners for acrylic paints was investigated. First, different hydrogel formulations based on functional acrylic monomers were used to formulate a series of UV cross-linked hydrogels by fast UV photopolymerization. Their effectiveness on surface dirt removal was investigated by SEM microscopy and colorimetry. The hydrogels showed excellent cleaning properties and controlled water release, and they still performed satisfactorily after several cleaning uses. The obtained UV-hydrogels were compared to the well-known agar gels, showing benefits in terms of reducing excess water. This article shows that easy-to-make UV-cured hydrogels are an efficient tool for the cleaning of surface dirt from water-sensitive paintings, overcoming the limits of traditional cleaning methods.
- Published
- 2021
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17. Tuning Proton Exchange and Transport in Protic Ionic Liquid Solution through Anion Chemistry.
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Huang G, Porcarelli L, Forsyth M, and Zhu H
- Abstract
Herein, we demonstrate that the potential difference of proton reduction and hydrogen gas oxidation of protic ionic liquids is closely related to the proton exchange rate in the electrolyte. Through a careful design of anion chemistry, the proton exchange rate can be boosted by several orders of magnitude, reaching 200 kHz at 100 °C. It is found that the enhanced proton exchange rate can effectively decrease the potential loss at the electrode, most likely through alleviating the H
+ concentration gradient incurred by electrochemical reactions at the electrode surfaces. This research therefore highlights the strategy of using anions of medium-strength acids, such as H2 PO4 - , for protic ionic liquids with enhanced proton exchange capability.- Published
- 2021
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18. Tuning the Properties of a UV-Polymerized, Cross-Linked Solid Polymer Electrolyte for Lithium Batteries.
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Sutton P, Airoldi M, Porcarelli L, Olmedo-Martínez JL, Mugemana C, Bruns N, Mecerreyes D, Steiner U, and Gunkel I
- Abstract
Lithium metal anodes have been pursued for decades as a way to significantly increase the energy density of lithium-ion batteries. However, safety risks caused by flammable liquid electrolytes and short circuits due to lithium dendrite formation during cell cycling have so far prevented the use of lithium metal in commercial batteries. Solid polymer electrolytes (SPEs) offer a potential solution if their mechanical properties and ionic conductivity can be simultaneously engineered. Here, we introduce a family of SPEs that are scalable and easy to prepare with a photopolymerization process, synthesized from amphiphilic acrylic polymer conetworks based on poly(ethylene glycol), 2-hydroxy-ethylacrylate, norbornyl acrylate, and either lithium bis (trifluoromethanesulfonyl) imide (LiTFSI) or a single-ion polymethacrylate as lithium-ion source. Several conetworks were synthesized and cycled, and their ionic conductivity, mechanical properties, and lithium transference number were characterized. A single-ion-conducting polymer electrolyte shows the best compromise between the different properties and extends the calendar life of the cell., Competing Interests: The authors declare no conflict of interest. The funders had no role in the design of the study; in the collection, analyses, or interpretation of data; in the writing of the manuscript, or in the decision to publish the results.
- Published
- 2020
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19. Tailored Methodology Based on Vapor Phase Polymerization to Manufacture PEDOT/CNT Scaffolds for Tissue Engineering.
- Author
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Dominguez-Alfaro A, Alegret N, Arnaiz B, González-Domínguez JM, Martin-Pacheco A, Cossío U, Porcarelli L, Bosi S, Vázquez E, Mecerreyes D, and Prato M
- Subjects
- Bridged Bicyclo Compounds, Heterocyclic, Polymerization, Polymers, Tissue Scaffolds, Nanotubes, Carbon, Tissue Engineering
- Abstract
Three-dimensional (3D) scaffolds with tailored stiffness, porosity, and conductive properties are particularly important in tissue engineering for electroactive cell attachment, proliferation, and vascularization. Carbon nanotubes (CNTs) and poly(3,4-ethylenedioxythiophene) (PEDOT) have been extensively used separately as neural interfaces showing excellent results. Herein, we combine both the materials and manufacture 3D structures composed exclusively of PEDOT and CNTs using a methodology based on vapor phase polymerization of PEDOT onto a CNT/sucrose template. Such a strategy presents versatility to produce porous scaffolds, after leaching out the sucrose grains, with different ratios of polymer/CNTs, and controllable and tunable electrical and mechanical properties. The resulting 3D structures show Young's modulus typical of soft materials (20-50 kPa), as well as high electrical conductivity, which may play an important role in electroactive cell growth. The conductive PEDOT/CNT porous scaffolds present high biocompatibility after 3 and 6 days of C8-D1A astrocyte incubation.
- Published
- 2020
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20. A water-based and metal-free dye solar cell exceeding 7% efficiency using a cationic poly(3,4-ethylenedioxythiophene) derivative.
- Author
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Bella F, Porcarelli L, Mantione D, Gerbaldi C, Barolo C, Grätzel M, and Mecerreyes D
- Abstract
A green, efficient and stable solar cell based only on water and safe and cheap elements of the periodic table is proposed in this work, finally consolidating (also from a sustainability viewpoint) the concept of "artificial photosynthesis" studied for decades by the scientific community. The concept of dye-sensitized solar cells is re-proposed here with a metal-free organic dye, an iodine-based electrolyte in a 100% aqueous environment and a new cathode (cationic PEDOT) synthesized for the first time with the aim of inhibiting the repulsion between the anions of redox couples and the PEDOT:PSS matrix commonly used as the counter-electrode. This elegant setup leads to a record efficiency of 7.02%, the highest value ever obtained for a water-based solar cell and, in general, for a photovoltaic device free of both organic solvents and expensive/heavy metals., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)
- Published
- 2020
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21. Comparison of intranasal versus intravenous midazolam for management of status epilepticus in dogs: A multi-center randomized parallel group clinical study.
- Author
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Charalambous M, Volk HA, Tipold A, Erath J, Huenerfauth E, Gallucci A, Gandini G, Hasegawa D, Pancotto T, Rossmeisl JH, Platt S, De Risio L, Coates JR, Musteata M, Tirrito F, Cozzi F, Porcarelli L, Corlazzoli D, Cappello R, Vanhaesebrouck A, Broeckx BJG, Van Ham L, and Bhatti SFM
- Subjects
- Administration, Intranasal, Animals, Dogs, Female, Injections, Intravenous, Male, Midazolam therapeutic use, Status Epilepticus drug therapy, Dog Diseases drug therapy, Midazolam administration & dosage, Status Epilepticus veterinary
- Abstract
Background: The intranasal (IN) route for rapid drug administration in patients with brain disorders, including status epilepticus, has been investigated. Status epilepticus is an emergency, and the IN route offers a valuable alternative to other routes, especially when these fail., Objectives: To compare IN versus IV midazolam (MDZ) at the same dosage (0.2 mg/kg) for controlling status epilepticus in dogs., Animals: Client-owned dogs (n = 44) with idiopathic epilepsy, structural epilepsy, or epilepsy of unknown origin manifesting as status epilepticus., Methods: Randomized parallel group clinical trial. Patients were randomly allocated to the IN-MDZ (n = 21) or IV-MDZ (n = 23) group. Number of successfully treated cases (defined as seizure cessation within 5 minutes and lasting for ≥10 minutes), seizure cessation time, and adverse effects were recorded. Comparisons were performed using the Fisher's exact and Wilcoxon rank sum tests with statistical significance set at α < .05., Results: IN-MDZ and IV-MDZ successfully stopped status epilepticus in 76% and 61% of cases, respectively (P = .34). The median seizure cessation time was 33 and 64 seconds for IN-MDZ and IV-MDZ, respectively (P = .63). When the time to place an IV catheter was taken into account, IN-MDZ (100 seconds) was superior (P = .04) to IV-MDZ (270 seconds). Sedation and ataxia were seen in 88% and 79% of the dogs treated with IN-MDZ and IV-MDZ, respectively., Conclusions and Clinical Importance: Both routes are quick, safe, and effective for controlling status epilepticus. However, the IN route demonstrated superiority when the time needed to place an IV catheter was taken into account., (© 2019 The Authors. Journal of Veterinary Internal Medicine published by Wiley Periodicals, Inc. on behalf of the American College of Veterinary Internal Medicine.)
- Published
- 2019
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22. Ionic Hydrogel for Accelerated Dopamine Delivery via Retrodialysis.
- Author
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Proctor CM, Chan CY, Porcarelli L, Udabe E, Sanchez-Sanchez A, Del Agua I, Mecerreyes D, and Malliaras GG
- Abstract
Local drug delivery directly to the source of a given pathology using retrodialysis is a promising approach to treating otherwise untreatable diseases. As the primary material component in retrodialysis, the semipermeable membrane represents a critical point for innovation. This work presents a new ionic hydrogel based on polyethylene glycol and acrylate with dopamine counterions. The ionic hydrogel membrane is shown to be a promising material for controlled diffusive delivery of dopamine. The ionic nature of the membrane accelerates uptake of cationic species compared to a nonionic membrane of otherwise similar composition. It is demonstrated that the increased uptake of cations can be exploited to confer an accelerated transport of cationic species between reservoirs as is desired in retrodialysis applications. This effect is shown to enable nearly 10-fold increases in drug delivery rates from low concentration solutions. The processability of the membrane is found to allow for integration with microfabricated devices which will in turn accelerate adaptation into both existing and emerging device modalities. It is anticipated that a similar materials design approach may be broadly applied to a variety of cationic and anionic compounds for drug delivery applications ranging from neurological disorders to cancer., Competing Interests: The authors declare no competing financial interest., (Copyright © 2019 American Chemical Society.)
- Published
- 2019
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23. Innovative Electrolytes Based on Ionic Liquids and Polymers for Next-Generation Solid-State Batteries.
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Forsyth M, Porcarelli L, Wang X, Goujon N, and Mecerreyes D
- Abstract
Electrolytes based on organic solvents used in current Li-ion batteries are not compatible with the next-generation energy storage technologies including those based on Li metal. Thus, there has been an increase in research activities investigating solid-state electrolytes, ionic liquids (ILs), polymers, and combinations of these. This Account will discuss some of the work from our teams in these areas. Similarly, other metal-based technologies including Na, Mg, Zn, and Al, for example, are being considered as alternatives to Li-based energy storage. However, the materials research required to effectively enable these alkali metal based energy storage applications is still in its relative infancy. Once again, electrolytes play a significant role in enabling these devices, and research has for the most part progressed along similar lines to that in advanced lithium technologies. Some of our recent contributions in these areas will also be discussed, along with our perspective on future directions in this field. For example, one approach has been to develop single-ion conductors, where the anion is tethered to the polymer backbone, and the dominant charge conductor is the lithium or sodium countercation. Typically, these present with low conductivity, whereas by using a copolymer approach or incorporating bulky quaternary ammonium co-cations, the effective charge separation is increased thus leading to higher conductivities and greater mobility of the alkali metal cation. This has been demonstrated both experimentally and via computer simulations. Further enhancements in ion transport may be possible in the future by designing and tethering more weakly associating anions to the polymer backbone. The second approach considers ion gels or composite polymer electrolytes where a polymerized ionic liquid is the matrix that provides both mechanical robustness and ion conducting pathways. The block copolymer approach is also demonstrated, in this case, to simultaneously provide mechanical properties and high ionic conductivity when used in combination with ionic-liquid electrolytes. The ultimate electrolyte material that will enable all high-performance solid-state batteries will have ion transport decoupled from the mechanical properties. While inorganic conductors can achieve this, their rigid, brittle nature creates difficulties. On the other hand, ionic polymers and their composites provide a rich area of chemistry to design and tune high ionic conductivity together with ideal mechanical properties.
- Published
- 2019
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24. Juvenile-onset polyneuropathy in American Staffordshire Terriers.
- Author
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Vandenberghe H, Escriou C, Rosati M, Porcarelli L, Recio Caride A, Añor S, Gandini G, Corlazzoli D, Thibaud JL, Matiasek K, and Blot S
- Subjects
- Animals, Biopsy veterinary, Dog Diseases genetics, Dogs, Electromyography veterinary, Female, Male, Muscle, Skeletal pathology, Neural Conduction, Pedigree, Peripheral Nerves pathology, Polyneuropathies genetics, Polyneuropathies pathology, Retrospective Studies, Dog Diseases pathology, Polyneuropathies veterinary
- Abstract
Background: The only hereditary neurologic disorder described so far in American Staffordshire Terriers is adult-onset cerebellar degeneration secondary to ceroid lipofuscinosis. We have seen several dogs with a newly recognized neurological disease characterized by locomotor weakness with or without respiratory signs and juvenile onset consistent with degenerative polyneuropathy of genetic origin., Objectives: To characterize a novel polyneuropathy in juvenile American Staffordshire Terriers., Animals: Fourteen American Staffordshire Terriers presented with clinical signs consistent with juvenile-onset polyneuropathy at 5 veterinary hospitals between May 2005 and July 2017., Methods: Case series. Dogs were included retrospectively after a diagnosis of degenerative polyneuropathy had been confirmed by nerve biopsy. Clinical, pathological, electrophysiological, histological data, and outcome were reviewed and a pedigree analysis performed., Results: All dogs displayed clinical signs of neuromuscular disease with generalized motor and sensory involvement, associated with focal signs of laryngeal paralysis (10/14 dogs) and megaesophagus (1/14 dogs). Histopathological findings were consistent with degenerative polyneuropathy. Follow-up was available for 11 dogs, and 3 dogs were euthanized shortly after diagnosis. In these 11 dogs, the disease was slowly progressive and the animals maintained good quality of life with ability to walk. Pedigree analysis was mostly consistent with an autosomal recessive mode of inheritance., Conclusions and Clinical Importance: Juvenile polyneuropathy, associated with laryngeal paralysis, is a newly described entity in American Staffordshire Terriers, and results from degenerative neuropathy. When surgery for laryngeal paralysis is performed, lifespan may be similar to that of normal dogs even though affected dogs have locomotor disturbance., (© 2018 The Authors. Journal of Veterinary Internal Medicine published by Wiley Periodicals, Inc. on behalf of the American College of Veterinary Internal Medicine.)
- Published
- 2018
- Full Text
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25. Biodegradable Polycarbonate Iongels for Electrophysiology Measurements.
- Author
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Y Yuen A, Porcarelli L, H Aguirresarobe R, Sanchez-Sanchez A, Del Agua I, Ismailov U, G Malliaras G, Mecerreyes D, Ismailova E, and Sardon H
- Abstract
In recent years, gels based on ionic liquids incorporated into polymer matrices, namely iongels, have emerged as long-term contact media for cutaneous electrophysiology. Iongels possess high ionic conductivity and negligible vapor pressure and can be designed on demand. In spite of the extensive efforts devoted to the preparation of biodegradable ionic liquids, the investigations related to the preparation of iongels based on biodegradable polymers remain scarce. In this work, biodegradable polycarbonate-based iongels are prepared by ring-opening polymerization of N -substituted eight ring membered cyclic carbonate monomers in the presence of imidazolium lactate ionic liquid. Our iongels are able to take up 10⁻30 wt % of ionic liquid and become softer materials by increasing the amount of free ionic liquid. Rheological measurements showed that the cross-over point between the storage modulus G' and loss modulus G″ occurs at lower angular frequencies when the loading of free ionic liquid increases. These gels are able to take up to 30 wt % of the ionic liquid and the ionic conductivity of these gels increased up to 5 × 10
-4 S·cm-1 at 25 °C as the amount of free ionic liquid increased. Additionally, we assess the biodegradation studies of the iongels by immersing them in water. The iongels decrease the impedance with the human skin to levels that are similar to commercial Ag/AgCl electrodes, allowing an accurate physiologic signals recording. The low toxicity and biodegradability of polycarbonate-based iongels make these materials highly attractive for cutaneous electrophysiology applications.- Published
- 2018
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26. A Na + conducting hydrogel for protection of organic electrochemical transistors.
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Del Agua I, Porcarelli L, Curto VF, Sanchez-Sanchez A, Ismailova E, Malliaras GG, and Mecerreyes D
- Abstract
Organic electrochemical transistors (OECTs) are being intensively developed for applications in electronics and biological interfacing. These devices rely on ions injected in a polymer film from an aqueous liquid electrolyte for their operation. However, the development of solid or semi-solid electrolytes are needed for future integration of OECTs into flexible, printed or conformable bioelectronic devices. Here, we present a new polyethylene glycol hydrogel with high Na
+ conductivity which is particularly suitable for OECTs. This novel hydrogel was synthesized using cost-effective photopolymerization of poly(ethylene glycol)-dimethacrylate and sodium acrylate. Due to the high water content (83% w/w) and the presence of free Na+ , the hydrogel showed high ionic conductivity values at room temperature (10-2 S cm-1 ) as characterized by electrochemical impedance spectroscopy. OECTs made using this hydrogel as a source of ions showed performance that was equivalent to that of OECTs employing a liquid electrolyte. They also showed improved stability, with only a 3% drop in current after 6 h of operation. This hydrogel paves the way for the replacement of liquid electrolytes in high performance OECTs bringing about advantages in terms of device integration and protection.- Published
- 2018
- Full Text
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27. Proton Conducting Membranes Based on Poly(Ionic Liquids) Having Phosphonium Counter-Cations.
- Author
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Isik M, Porcarelli L, Lago N, Zhu H, Forsyth M, and Mecerreyes D
- Subjects
- Anions chemistry, Calorimetry, Differential Scanning, Imides chemistry, Magnetic Resonance Spectroscopy, Spectroscopy, Fourier Transform Infrared, Thermogravimetry, Cations chemistry, Ionic Liquids chemistry, Membranes, Artificial, Phosphines chemistry, Polymers chemistry, Protons
- Abstract
Proton conducting polymeric membranes are highly searched in many different technologies ranging from energy to biosensing. Protic ionic liquids and their polymeric version represent a new family of proton conducting molecules with relatively facile synthesis and excellent properties. In this work, protic poly(ionic liquids) having the most popular phosphonium counter-cations are presented for the first time. The synthesis is carried out through proton transfer reactions or through ion exchange reactions by using commercially available tertiary phosphines. Tributyl-, trioctyl-, and tricyclohexyl-phosphine are selected to form the desired cations. Polystyrene sulfonic acid, poly(2-acrylamido-2-methyl-1-propanesulfonic acid), and lithium poly[(4-styrenesulfonyl) (trifluoromethanesulfonyl)imide] polymers are used to form the polymeric anions. The chemical structure of the protic poly(ionic liquids) is confirmed by spectroscopic characterizations such as Fourier transform infrared and nuclear magnetic resonance spectroscopies. Thermal properties of the polymer are characterized by means of differential scanning calorimetry and thermogravimetric analysis. Polymers exhibit good membrane forming ability as well as high ionic conductivities in the range of 10
-8 to 10-3 S cm-1 from 30 to 90 °C., (© 2017 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)- Published
- 2018
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28. Simple and Fast Gas-chromatography Mass Spectrometry Assay to Assess Delta 9-Tetrahydrocannabinol and Cannabidiol in Dogs Treated with Medical Cannabis for Canine Epilepsy.
- Author
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Rotolo MC, Graziano S, Pellegrini M, Corlazzoli D, Antinori L, Porcarelli L, and Pichini S
- Subjects
- Animals, Biological Assay, Cannabidiol therapeutic use, Dog Diseases drug therapy, Dogs, Dronabinol therapeutic use, Drug Monitoring veterinary, Epilepsy drug therapy, Epilepsy veterinary, Humans, Medical Marijuana therapeutic use, Cannabidiol blood, Dog Diseases blood, Dronabinol blood, Epilepsy blood, Gas Chromatography-Mass Spectrometry veterinary, Medical Marijuana blood
- Abstract
Background: To date, an increasing number of pet owners, especially in the USA, are using cannabis-derived products containing generally delta 9-tetrahydrocannabinol (THC) and cannabidiol (CBD) to help their animals' health. Unfortunately, studies on the clinical use of cannabinoids in veterinary medicine are still limited, and the application of analytical methodologies for the determination of cannabinoids in animal (especially dog) biological matrices such as plasma, is still missing., Methods: A reliable, fast, accurate, simple gas chromatography-mass spectrometry (GC-MS) method was developed and validated for the quantification of THC and CBD in plasma samples of eight dogs under therapeutic treatment for epilepsy and receiving oral administration of medical cannabis (Bediol)., Results: The method was linear for both the analytes under investigation with coefficients of determination (r2) of at least 0.99. Absolute analytical recovery (mean ± SD) ranged from 80.6 ± 6.2% for THC and 81.7 ± 4.3% for CBD. The matrix effect showed less than 10% analytical suppression due to endogenous substances for both the analytes. The intra-assay and inter-assay precision values ranged from 4.9% to 12.7%, and from 5.2% to 8.7% respectively. The intra-assay and inter-assay accuracy values ranged from 2.3% to 9.6% and from 3.4% to 13.0%, respectively., Conclusion: The validated method was successfully applied to real samples; moreover, to assess the potential of the method applicability and robustness in future veterinary clinical studies on cannabinoids therapy, we attempted to follow the kinetic of THC and CBD in the plasma of two dogs under therapy at different times after Bediol administration., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.org.)
- Published
- 2017
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29. Nodo-paranodopathy, internodopathy and cleftopathy: Target-based reclassification of Guillain-Barré-like immune-mediated polyradiculoneuropathies in dogs and cats.
- Author
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Gross S, Fischer A, Rosati M, Matiasek L, Corlazzoli D, Cappello R, Porcarelli L, Harcourt-Brown T, Jurina K, Garosi L, Flegel T, Quitt P, Molin J, Huelsmeyer VI, Schenk H, Gandini G, Gnirs K, Blot S, Jeandel A, Baroni M, Loderstedt S, Abbiati G, Leithaeuser C, Schulze S, Kornberg M, Lowrie M, and Matiasek K
- Subjects
- Animals, Cat Diseases drug therapy, Cat Diseases pathology, Cat Diseases physiopathology, Cats, Dog Diseases drug therapy, Dog Diseases pathology, Dog Diseases physiopathology, Dogs, Electromyography, Female, Immunologic Factors therapeutic use, Male, Peripheral Nerves drug effects, Peripheral Nerves pathology, Peripheral Nerves physiopathology, Polyradiculoneuropathy classification, Polyradiculoneuropathy pathology, Polyradiculoneuropathy physiopathology, Retrospective Studies, Cat Diseases classification, Dog Diseases classification, Polyradiculoneuropathy veterinary
- Abstract
Recent views on Guillain-Barré syndrome (GBS) question the accuracy of classification into axonal and demyelinating subtypes that represent convergent neurophysiological phenotypes rather than immunological targets. Instead it has been proposed to clarify the primarily affected fibre subunit in nerve biopsies. As nerve biopsies rarely are part of routine work-up in human patients we evaluated tissues taken from companion animals affected by GBS-like polyradiculoneuropathy to screen for distribution of immune cells, targeted fibre components and segregating non-inflammatory lesions. We identified that immune responses were directed either at Schmidt-Lanterman clefts, the paranode-node complex or both. Based on infiltrative and non-inflammatory changes, four subtypes and/or stages were distinguished, some of which indicate localisation of primary target antigens while others represent convergent late stage pictures, as a consequence to epitope spreading. The impact of histological subtyping onto clinical management and prognosis remains to be evaluated in future clinical trials. Natural development and clinical manifestation of large animal dysimmune neuropathy may reflect human Guillain-Barré syndrome more accurately than experimental models and therefore provide complementary clues for translational research., (Copyright © 2016 Elsevier B.V. All rights reserved.)
- Published
- 2016
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30. Single-Ion Block Copoly(ionic liquid)s as Electrolytes for All-Solid State Lithium Batteries.
- Author
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Porcarelli L, Shaplov AS, Salsamendi M, Nair JR, Vygodskii YS, Mecerreyes D, and Gerbaldi C
- Abstract
Polymer electrolytes have been proposed as replacement for conventional liquid electrolytes in lithium-ion batteries (LIBs) due to their intrinsic enhanced safety. Nevertheless, the power delivery of these materials is limited by the concentration gradient of the lithium salt. Single-ion conducting polyelectrolytes represent the ideal solution since their nature prevents polarization phenomena. Herein, the preparation of a new family of single-ion conducting block copolymer polyelectrolytes via reversible addition-fragmentation chain transfer polymerization technique is reported. These copolymers comprise poly(lithium 1-[3-(methacryloyloxy)propylsulfonyl]-1-(trifluoromethylsulfonyl)imide) and poly(ethylene glycol) methyl ether methacrylate blocks. The obtained polyelectrolytes show low Tg values in the range of -61 to 0.6 °C, comparatively high ionic conductivity (up to 2.3 × 10(-6) and 1.2 × 10(-5) S cm(-1) at 25 and 55 °C, respectively), wide electrochemical stability (up to 4.5 V versus Li(+)/Li), and a lithium-ion transference number close to unity (0.83). Owing to the combination of all mentioned properties, the prepared polymer materials were used as solid polyelectrolytes and as binders in the elaboration of lithium-metal battery prototypes with high charge/discharge efficiency and excellent specific capacity (up to 130 mAh g(-1)) at C/15 rate.
- Published
- 2016
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31. Super Soft All-Ethylene Oxide Polymer Electrolyte for Safe All-Solid Lithium Batteries.
- Author
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Porcarelli L, Gerbaldi C, Bella F, and Nair JR
- Abstract
Here we demonstrate that by regulating the mobility of classic -EO- based backbones, an innovative polymer electrolyte system can be architectured. This polymer electrolyte allows the construction of all solid lithium-based polymer cells having outstanding cycling behaviour in terms of rate capability and stability over a wide range of operating temperatures. Polymer electrolytes are obtained by UV-induced (co)polymerization, which promotes an effective interlinking between the polyethylene oxide (PEO) chains plasticized by tetraglyme at various lithium salt concentrations. The polymer networks exhibit sterling mechanical robustness, high flexibility, homogeneous and highly amorphous characteristics. Ambient temperature ionic conductivity values exceeding 0.1 mS cm(-1) are obtained, along with a wide electrochemical stability window (>5 V vs. Li/Li(+)), excellent lithium ion transference number (>0.6) as well as interfacial stability. Moreover, the efficacious resistance to lithium dendrite nucleation and growth postulates the implementation of these polymer electrolytes in next generation of all-solid Li-metal batteries working at ambient conditions.
- Published
- 2016
- Full Text
- View/download PDF
32. Newly Elaborated Multipurpose Polymer Electrolyte Encompassing RTILs for Smart Energy-Efficient Devices.
- Author
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Nair JR, Porcarelli L, Bella F, and Gerbaldi C
- Abstract
Profoundly ion-conducting, self-standing, and tack-free ethylene oxide-based polymer electrolytes encompassing a room-temperature ionic liquid (RTIL) with specific amounts of lithium salt are successfully prepared via a rapid and easily upscalable process including a UV irradiation step. All prepared materials are thoroughly characterized in terms of their physical, chemical, and morphological properties and eventually galvanostatically cycled in lab-scale lithium batteries (LIBs) exploiting a novel direct polymerization procedure to get intimate electrode/electrolyte interfacial characteristics. The promising multipurpose characteristics of the newly elaborated materials are demonstrated by testing them in dye-sensitized solar cells (DSSCs), where the introduction of the iodine/iodide-based redox mediator in the polymer matrix assured the functioning of a lab-scale test cell with conversion efficiency exceeding 6% at 1 sun. The reported results enlighten the promising prospects of the material to be successfully implemented as stable, durable, and efficient electrolyte in next-generation energy conversion and storage devices.
- Published
- 2015
- Full Text
- View/download PDF
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