Your search keyword '"Griffini, A."' showing total 51 results

1. Characterization of a Gliding Arc Tornado device for lignin particles functionalization

Author

Barni, R, Canevali, C, Zoia, L, Orlandi, M, Bellinetto, E, Boumezgane, O, Turri, S, Griffini, G, Riccardi, C, Barni R., Canevali C., Zoia L., Orlandi M., Bellinetto E., Boumezgane O., Turri S., Griffini G., Riccardi C., Barni, R, Canevali, C, Zoia, L, Orlandi, M, Bellinetto, E, Boumezgane, O, Turri, S, Griffini, G, Riccardi, C, Barni R., Canevali C., Zoia L., Orlandi M., Bellinetto E., Boumezgane O., Turri S., Griffini G., and Riccardi C.

Published

2023

2. Plasma processing of nano- and micro-particles in Gliding Arc Tornado device

Author

Barni, R, Canevali, C, Zoia, L, Orlandi, M, Bellinetto, E, Boumezgane, O, Turri, S, Griffini, G, Riccardi, C, R. Barni, C. Canevali, L. Zoia, M. Orlandi, E. Bellinetto, O. Boumezgane, S. Turri, G. Griffini, C. Riccardi, Barni, R, Canevali, C, Zoia, L, Orlandi, M, Bellinetto, E, Boumezgane, O, Turri, S, Griffini, G, Riccardi, C, R. Barni, C. Canevali, L. Zoia, M. Orlandi, E. Bellinetto, O. Boumezgane, S. Turri, G. Griffini, and C. Riccardi

Abstract

The Gliding Arc Tornado (GAT) is a device operating a near atmospheric pressure discharge with optimized hydrodynamical properties compared to those of gliding arcs reactors. The name points to the reverse vortex flow configuration, a tornado, of the gas-phase in the discharge region. In practice, this is implemented through a tangential gas injection from the lateral surface of a cylinder hosting the process chamber. This ensures an optimal mixing and much longer residence times respect to an axial laminar flow [1]. It provides also, normally a better insulation of the device walls from the discharge. It was also observed that a higher level of non-equilibrium characterizes the plasma gas-phase than in arcs. We have developed and used a kind of these devices for the treatment of lignin by plasmas [2]. Particles in powder, such as lignin, can be easily injected in the gas flow, separated and exposed to the plasma gas-phase while they are transported by the hydrodynamical flow. So optimal interaction with the discharge gas-phase could be achieved. Here we will present some results concerning the characterization of the discharge and of the plasma gas-phase. We discuss briefly also the prospect of plasma processing and its optimization, we have studied during a dedicated application, the POLISTE project [3].

Published

2022

3. Accountability e tutela nella Chiesa. Proteggere i minori dagli abusi oggi.

Author

Anna Gianfreda (ORCID:0000-0002-5739-8991), Zuppi, M, Cevolotto, A, Barbieri, P, Lupo, D, Pradella, G, Fellegara, A, Triani, P, Ghisoni, L, Gianfreda, A, Milani, D, Marchetti, G, D'Amato, E, Griffini, C, Russo, L, Musi, E, Ranieri, S, Ferrari, L, Iafrate, R, Chizzoniti, A.G, Gianfreda, Anna, Griffini, Chiara, Anna Gianfreda (ORCID:0000-0002-5739-8991), Zuppi, M, Cevolotto, A, Barbieri, P, Lupo, D, Pradella, G, Fellegara, A, Triani, P, Ghisoni, L, Gianfreda, A, Milani, D, Marchetti, G, D'Amato, E, Griffini, C, Russo, L, Musi, E, Ranieri, S, Ferrari, L, Iafrate, R, Chizzoniti, A.G, Gianfreda, Anna, and Griffini, Chiara

Abstract

Cosa significa tutelare un minore? Quale immagine di tutela dei minori guida l'agire nei contesti istituzionali oggi, compresi gli ambienti ecclesiali? Esistono delle reti di collaborazione tra Chiesa e società civile che promuovano contesti di vita sicuri in cui minori e vulnerabili siano al centro? In un percorso a cavallo tra aspetti giuridico-normativi e psicologico-educativi, il volume, con una prefazione del card. Matteo Maria Zuppi, raccoglie e arricchisce gli atti del Convegno "Accountability e tutela nella Chiesa. Proteggere i minori dagli abusi oggi", organizzato dalla Diocesi di Piacenza-Bobbio, dalle Facoltà di Economia e giurisprudenza e di Scienze della formazione e dal Dipartimento di Scienze giuridiche dell'Università Cattolica del Sacro Cuore di Piacenza, in occasione della prima giornata nazionale di preghiera e sensibilizzazione per le vittime e i sopravvissuti agli abusi indetta dalla Conferenza episcopale italiana.

Published

2022

4. Consensus statement: Standardized reporting of power-producing luminescent solar concentrator performance

Author

Yang, C, Atwater, H, Baldo, M, Baran, D, Barile, C, Barr, M, Bates, M, Bawendi, M, Bergren, M, Borhan, B, Brabec, C, Brovelli, S, Bulović, V, Ceroni, P, Debije, M, Delgado-Sanchez, J, Dong, W, Duxbury, P, Evans, R, Forrest, S, Gamelin, D, Giebink, N, Gong, X, Griffini, G, Guo, F, Herrera, C, Ho-Baillie, A, Holmes, R, Hong, S, Kirchartz, T, Levine, B, Li, H, Li, Y, Liu, D, Loi, M, Luscombe, C, Makarov, N, Mateen, F, Mazzaro, R, Mcdaniel, H, Mcgehee, M, Meinardi, F, Menéndez-Velázquez, A, Min, J, Mitzi, D, Moemeni, M, Moon, J, Nattestad, A, Nazeeruddin, M, Nogueira, A, Paetzold, U, Patrick, D, Pucci, A, Rand, B, Reichmanis, E, Richards, B, Roncali, J, Rosei, F, Schmidt, T, So, F, Tu, C, Vahdani, A, van Sark, W, Verduzco, R, Vomiero, A, Wong, W, Wu, K, Yip, H, Zhang, X, Zhao, H, Lunt, R, Yang, Chenchen, Atwater, Harry A., Baldo, Marc A., Baran, Derya, Barile, Christopher J., Barr, Miles C., Bates, Matthew, Bawendi, Moungi G., Bergren, Matthew R., Borhan, Babak, Brabec, Christoph J., Brovelli, Sergio, Bulović, Vladimir, Ceroni, Paola, Debije, Michael G., Delgado-Sanchez, Jose-Maria, Dong, Wen-Ji, Duxbury, Phillip M., Evans, Rachel C., Forrest, Stephen R., Gamelin, Daniel R., Giebink, Noel C., Gong, Xiao, Griffini, Gianmarco, Guo, Fei, Herrera, Christopher K., Ho-Baillie, Anita W. Y., Holmes, Russell J., Hong, Sung-Kyu, Kirchartz, Thomas, Levine, Benjamin G., Li, Hongbo, Li, Yilin, Liu, Dianyi, Loi, Maria A., Luscombe, Christine K., Makarov, Nikolay S., Mateen, Fahad, Mazzaro, Raffaello, McDaniel, Hunter, McGehee, Michael D., Meinardi, Francesco, Menéndez-Velázquez, Amador, Min, Jie, Mitzi, David B., Moemeni, Mehdi, Moon, Jun Hyuk, Nattestad, Andrew, Nazeeruddin, Mohammad K., Nogueira, Ana F., Paetzold, Ulrich W., Patrick, David L., Pucci, Andrea, Rand, Barry P., Reichmanis, Elsa, Richards, Bryce S., Roncali, Jean, Rosei, Federico, Schmidt, Timothy W., So, Franky, Tu, Chang-Ching, Vahdani, Aria, van Sark, Wilfried G. J. H. M., Verduzco, Rafael, Vomiero, Alberto, Wong, Wallace W. H., Wu, Kaifeng, Yip, Hin-Lap, Zhang, Xiaowei, Zhao, Haiguang, Lunt, Richard R., Yang, C, Atwater, H, Baldo, M, Baran, D, Barile, C, Barr, M, Bates, M, Bawendi, M, Bergren, M, Borhan, B, Brabec, C, Brovelli, S, Bulović, V, Ceroni, P, Debije, M, Delgado-Sanchez, J, Dong, W, Duxbury, P, Evans, R, Forrest, S, Gamelin, D, Giebink, N, Gong, X, Griffini, G, Guo, F, Herrera, C, Ho-Baillie, A, Holmes, R, Hong, S, Kirchartz, T, Levine, B, Li, H, Li, Y, Liu, D, Loi, M, Luscombe, C, Makarov, N, Mateen, F, Mazzaro, R, Mcdaniel, H, Mcgehee, M, Meinardi, F, Menéndez-Velázquez, A, Min, J, Mitzi, D, Moemeni, M, Moon, J, Nattestad, A, Nazeeruddin, M, Nogueira, A, Paetzold, U, Patrick, D, Pucci, A, Rand, B, Reichmanis, E, Richards, B, Roncali, J, Rosei, F, Schmidt, T, So, F, Tu, C, Vahdani, A, van Sark, W, Verduzco, R, Vomiero, A, Wong, W, Wu, K, Yip, H, Zhang, X, Zhao, H, Lunt, R, Yang, Chenchen, Atwater, Harry A., Baldo, Marc A., Baran, Derya, Barile, Christopher J., Barr, Miles C., Bates, Matthew, Bawendi, Moungi G., Bergren, Matthew R., Borhan, Babak, Brabec, Christoph J., Brovelli, Sergio, Bulović, Vladimir, Ceroni, Paola, Debije, Michael G., Delgado-Sanchez, Jose-Maria, Dong, Wen-Ji, Duxbury, Phillip M., Evans, Rachel C., Forrest, Stephen R., Gamelin, Daniel R., Giebink, Noel C., Gong, Xiao, Griffini, Gianmarco, Guo, Fei, Herrera, Christopher K., Ho-Baillie, Anita W. Y., Holmes, Russell J., Hong, Sung-Kyu, Kirchartz, Thomas, Levine, Benjamin G., Li, Hongbo, Li, Yilin, Liu, Dianyi, Loi, Maria A., Luscombe, Christine K., Makarov, Nikolay S., Mateen, Fahad, Mazzaro, Raffaello, McDaniel, Hunter, McGehee, Michael D., Meinardi, Francesco, Menéndez-Velázquez, Amador, Min, Jie, Mitzi, David B., Moemeni, Mehdi, Moon, Jun Hyuk, Nattestad, Andrew, Nazeeruddin, Mohammad K., Nogueira, Ana F., Paetzold, Ulrich W., Patrick, David L., Pucci, Andrea, Rand, Barry P., Reichmanis, Elsa, Richards, Bryce S., Roncali, Jean, Rosei, Federico, Schmidt, Timothy W., So, Franky, Tu, Chang-Ching, Vahdani, Aria, van Sark, Wilfried G. J. H. M., Verduzco, Rafael, Vomiero, Alberto, Wong, Wallace W. H., Wu, Kaifeng, Yip, Hin-Lap, Zhang, Xiaowei, Zhao, Haiguang, and Lunt, Richard R.

Abstract

Fair and meaningful device performance comparison among luminescent solar concentrator-photovoltaic (LSC-PV) reports cannot be realized without a general consensus on reporting standards in LSC-PV research. Therefore, it is imperative to adopt standardized characterization protocols for these emerging types of PV devices that are consistent with other PV devices. This commentary highlights several common limitations in LSC literature and summarizes the best practices moving forward to harmonize with standard PV reporting, considering the greater nuances present with LSC-PV. Based on these practices, a checklist of actionable items is provided to help standardize the characterization/reporting protocols and offer a set of baseline expectations for authors, reviewers, and editors. The general consensus combined with the checklist will ultimately guide LSC-PV research towards reliable and meaningful advances.

Published

2022

5. Tuning the Properties of Biobased PU Coatings via Selective Lignin Fractionation and Partial Depolymerization

Author

Smit, Arjan T., Bellinetto, Emanuela, Dezaire, Thomas, Boumezgane, Oussama, Riddell, Luke A., Turri, Stefano, Hoek, Michiel, Bruijnincx, Pieter C.A., Griffini, Gianmarco, Smit, Arjan T., Bellinetto, Emanuela, Dezaire, Thomas, Boumezgane, Oussama, Riddell, Luke A., Turri, Stefano, Hoek, Michiel, Bruijnincx, Pieter C.A., and Griffini, Gianmarco

Abstract

Polyurethane (PU) coatings with high lignin content and tunable properties were made using a combination of fractionation and partial catalytic depolymerization as a novel strategy to tailor lignin molar mass and hydroxyl group reactivity, the key parameters for use in PU coatings. Acetone organosolv lignin obtained from pilot-scale fractionation of beech wood chips was processed at the kilogram scale to produce lignin fractions with specific molar mass ranges (Mw 1000-6000 g/mol) and reduced polydispersity. Aliphatic hydroxyl groups were distributed relatively evenly over the lignin fractions, allowing detailed study of the correlation between lignin molar mass and hydroxyl group reactivity using an aliphatic polyisocyanate linker. As expected, the high molar mass fractions exhibited low cross-linking reactivity, yielding rigid coatings with a high glass transition temperature (Tg). The lower Mw fractions showed increased lignin reactivity, extent of cross-linking, and gave coatings with enhanced flexibility and lower Tg. Lignin properties could be further tailored by lignin partial depolymerization by reduction (PDR) of the beech wood lignin and its high molar mass fractions; excellent translation of the PDR process was observed from laboratory to the pilot scale necessary for coating applications in prospective industrial scenarios. Lignin depolymerization significantly improved lignin reactivity, and coatings produced from PDR lignin showed the lowest Tg values and highest coating flexibility. Overall, this study provides a powerful strategy for the production of PU coatings with tailored properties and high (>90%) biomass content, paving the path to the development of fully green and circular PU materials.

Published

2023

6. Tuning the Properties of Biobased PU Coatings via Selective Lignin Fractionation and Partial Depolymerization

Author

Sub Organic Chemistry and Catalysis, Organic Chemistry and Catalysis, Smit, Arjan T., Bellinetto, Emanuela, Dezaire, Thomas, Boumezgane, Oussama, Riddell, Luke A., Turri, Stefano, Hoek, Michiel, Bruijnincx, Pieter C.A., Griffini, Gianmarco, Sub Organic Chemistry and Catalysis, Organic Chemistry and Catalysis, Smit, Arjan T., Bellinetto, Emanuela, Dezaire, Thomas, Boumezgane, Oussama, Riddell, Luke A., Turri, Stefano, Hoek, Michiel, Bruijnincx, Pieter C.A., and Griffini, Gianmarco

Published

2023

7. First demonstration of the use of open-shell derivatives as organic luminophores for transparent luminescent solar concentrators

Author

Mattiello, S, Corsini, F, Mecca, S, Sassi, M, Ruffo, R, Mattioli, G, Hattori, Y, Kusamoto, T, Griffini, G, Beverina, L, Mattiello S., Corsini F., Mecca S., Sassi M., Ruffo R., Mattioli G., Hattori Y., Kusamoto T., Griffini G., Beverina L., Mattiello, S, Corsini, F, Mecca, S, Sassi, M, Ruffo, R, Mattioli, G, Hattori, Y, Kusamoto, T, Griffini, G, Beverina, L, Mattiello S., Corsini F., Mecca S., Sassi M., Ruffo R., Mattioli G., Hattori Y., Kusamoto T., Griffini G., and Beverina L.

Abstract

Luminescent solar concentrators (LSCs) are rapidly emerging as the key enabling technology towards the realization of zero-energy buildings. The development of new efficient and sustainable luminophores is crucial for further improvement. The large Stokes shift, luminescent and persistent radicals prepared using sustainable routes offer advantages for large-area transparent LSCs featuring minimal colour distortion of the transmitted light. LSCs based on the best performing luminescent radicals are largely unaffected by reabsorption losses, thus providing a better performance with respect to the literature standards over active areas exceeding 400 cm2.

Published

2021

8. Sustainable by design, large Stokes shift benzothiadiazole derivatives for efficient luminescent solar concentrators

Author

Ceriani, C, Corsini, F, Mattioli, G, Mattiello, S, Testa, D, Po, R, Botta, C, Griffini, G, Beverina, L, Ceriani C., Corsini F., Mattioli G., Mattiello S., Testa D., Po R., Botta C., Griffini G., Beverina L., Ceriani, C, Corsini, F, Mattioli, G, Mattiello, S, Testa, D, Po, R, Botta, C, Griffini, G, Beverina, L, Ceriani C., Corsini F., Mattioli G., Mattiello S., Testa D., Po R., Botta C., Griffini G., and Beverina L.

Abstract

Luminescent solar concentrators (LSCs) are becoming an increasingly relevant topic for building integrated photovoltaics. Even if such devices are relatively simple planar waveguides doped with a luminescent material, the achievement of relevant efficiencies requires a careful optimisation of both the matrix and the luminophore. Most of the recent literature focuses on the performance, yet the overall sustainability of the strategy is a topic at least as important. In this respect the luminophore plays a crucial role. Suitable materials must feature a near unit emission quantum yield, efficient light harvesting and a large separation between absorption and emission to reduce reabsorption losses. Due to the target application, such materials must also be readily available in large quantities through sustainable processes. Instead of going for performance first and then scaling up/optimising the synthesis, in this paper we offer a reversed perspective. We have first designed and computationally characterised materials having structural features compatible with a green chemistry synthetic approach, namely, micellar catalysis. Later, we have characterised the most promising materials in LSC devices, and we have compared their performance with commercially available, non-green chemistry compliant alternatives having similar spectral features. In the overall, we demonstrate comparable performance, but greatly improved sustainability and scalability. This journal is

Published

2021

9. Consensus statement: Standardized reporting of power-producing luminescent solar concentrator performance

Author

Yang, Chenchen, Atwater, Harry A., Baldo, Marc A., Baran, Derya, Barile, Christopher J., Barr, Miles C., Bates, Matthew, Bawendi, Moungi G., Bergren, Matthew R., Borhan, Babak, Brabec, Christoph J., Brovelli, Sergio, Bulović, Vladimir, Ceroni, Paola, Debije, Michael G., Delgado-Sanchez, Jose-Maria, Dong, Wen-Ji, Duxbury, Phillip M., Evans, Rachel C., Forrest, Stephen R., Gamelin, Daniel R., Giebink, Noel C., Gong, Xiao, Griffini, Gianmarco, Guo, Fei, Herrera, Christopher K., Ho-Baillie, Anita W.Y., Holmes, Russell J., Hong, Sung-Kyu, Kirchartz, Thomas, Levine, Benjamin G., Li, Hongbo, Li, Yilin, Liu, Dianyi, Loi, Maria A., Luscombe, Christine K., Makarov, Nikolay S., Mateen, Fahad, Mazzaro, Raffaello, McDaniel, Hunter, McGehee, Michael D., Meinardi, Francesco, Menéndez-Velázquez, Amador, Min, Jie, Mitzi, David B., Moemeni, Mehdi, Moon, Jun Hyuk, Nattestad, Andrew, Nazeeruddin, Mohammad K., Nogueira, Ana F., Paetzold, Ulrich W., Patrick, David L., Pucci, Andrea, Rand, Barry R., Reichmanis, Elsa, Richards, Bryce S., Roncali, Jean, Rosei, Federico, Schmidt, Timothy W., So, Franky, Tu, Chang-Ching, Vahdani, Aria, van Sark, Wilfried G.J.H.M., Verduzco, Rafael, Vomiero, Alberto, Wong, Wallace W.H., Wu, Kaifeng, Yip, Hin-Lap, Zhang, Xiaowei, Zhao, Haiguang, Lunt, Richard R., Yang, Chenchen, Atwater, Harry A., Baldo, Marc A., Baran, Derya, Barile, Christopher J., Barr, Miles C., Bates, Matthew, Bawendi, Moungi G., Bergren, Matthew R., Borhan, Babak, Brabec, Christoph J., Brovelli, Sergio, Bulović, Vladimir, Ceroni, Paola, Debije, Michael G., Delgado-Sanchez, Jose-Maria, Dong, Wen-Ji, Duxbury, Phillip M., Evans, Rachel C., Forrest, Stephen R., Gamelin, Daniel R., Giebink, Noel C., Gong, Xiao, Griffini, Gianmarco, Guo, Fei, Herrera, Christopher K., Ho-Baillie, Anita W.Y., Holmes, Russell J., Hong, Sung-Kyu, Kirchartz, Thomas, Levine, Benjamin G., Li, Hongbo, Li, Yilin, Liu, Dianyi, Loi, Maria A., Luscombe, Christine K., Makarov, Nikolay S., Mateen, Fahad, Mazzaro, Raffaello, McDaniel, Hunter, McGehee, Michael D., Meinardi, Francesco, Menéndez-Velázquez, Amador, Min, Jie, Mitzi, David B., Moemeni, Mehdi, Moon, Jun Hyuk, Nattestad, Andrew, Nazeeruddin, Mohammad K., Nogueira, Ana F., Paetzold, Ulrich W., Patrick, David L., Pucci, Andrea, Rand, Barry R., Reichmanis, Elsa, Richards, Bryce S., Roncali, Jean, Rosei, Federico, Schmidt, Timothy W., So, Franky, Tu, Chang-Ching, Vahdani, Aria, van Sark, Wilfried G.J.H.M., Verduzco, Rafael, Vomiero, Alberto, Wong, Wallace W.H., Wu, Kaifeng, Yip, Hin-Lap, Zhang, Xiaowei, Zhao, Haiguang, and Lunt, Richard R.

Abstract

Fair and meaningful device performance comparison among luminescent solar concentrator-photovoltaic (LSC-PV) reports cannot be realized without a general consensus on reporting standards in LSC-PV research. Therefore, it is imperative to adopt standardized characterization protocols for these emerging types of PV devices that are consistent with other PV devices. This commentary highlights several common limitations in LSC literature and summarizes the best practices moving forward to harmonize with standard PV reporting, considering the greater nuances present with LSC-PV. Based on these practices, a checklist of actionable items is provided to help standardize the characterization/reporting protocols and offer a set of baseline expectations for authors, reviewers, and editors. The general consensus combined with the checklist will ultimately guide LSC-PV research towards reliable and meaningful advances.

Published

2022

10. Consensus statement: Standardized reporting of power-producing luminescent solar concentrator performance

Author

Integration of Photovoltaic Solar Energy, Energy and Resources, Yang, Chenchen, Atwater, Harry A., Baldo, Marc A., Baran, Derya, Barile, Christopher J., Barr, Miles C., Bates, Matthew, Bawendi, Moungi G., Bergren, Matthew R., Borhan, Babak, Brabec, Christoph J., Brovelli, Sergio, Bulović, Vladimir, Ceroni, Paola, Debije, Michael G., Delgado-Sanchez, Jose-Maria, Dong, Wen-Ji, Duxbury, Phillip M., Evans, Rachel C., Forrest, Stephen R., Gamelin, Daniel R., Giebink, Noel C., Gong, Xiao, Griffini, Gianmarco, Guo, Fei, Herrera, Christopher K., Ho-Baillie, Anita W.Y., Holmes, Russell J., Hong, Sung-Kyu, Kirchartz, Thomas, Levine, Benjamin G., Li, Hongbo, Li, Yilin, Liu, Dianyi, Loi, Maria A., Luscombe, Christine K., Makarov, Nikolay S., Mateen, Fahad, Mazzaro, Raffaello, McDaniel, Hunter, McGehee, Michael D., Meinardi, Francesco, Menéndez-Velázquez, Amador, Min, Jie, Mitzi, David B., Moemeni, Mehdi, Moon, Jun Hyuk, Nattestad, Andrew, Nazeeruddin, Mohammad K., Nogueira, Ana F., Paetzold, Ulrich W., Patrick, David L., Pucci, Andrea, Rand, Barry R., Reichmanis, Elsa, Richards, Bryce S., Roncali, Jean, Rosei, Federico, Schmidt, Timothy W., So, Franky, Tu, Chang-Ching, Vahdani, Aria, van Sark, Wilfried G.J.H.M., Verduzco, Rafael, Vomiero, Alberto, Wong, Wallace W.H., Wu, Kaifeng, Yip, Hin-Lap, Zhang, Xiaowei, Zhao, Haiguang, Lunt, Richard R., Integration of Photovoltaic Solar Energy, Energy and Resources, Yang, Chenchen, Atwater, Harry A., Baldo, Marc A., Baran, Derya, Barile, Christopher J., Barr, Miles C., Bates, Matthew, Bawendi, Moungi G., Bergren, Matthew R., Borhan, Babak, Brabec, Christoph J., Brovelli, Sergio, Bulović, Vladimir, Ceroni, Paola, Debije, Michael G., Delgado-Sanchez, Jose-Maria, Dong, Wen-Ji, Duxbury, Phillip M., Evans, Rachel C., Forrest, Stephen R., Gamelin, Daniel R., Giebink, Noel C., Gong, Xiao, Griffini, Gianmarco, Guo, Fei, Herrera, Christopher K., Ho-Baillie, Anita W.Y., Holmes, Russell J., Hong, Sung-Kyu, Kirchartz, Thomas, Levine, Benjamin G., Li, Hongbo, Li, Yilin, Liu, Dianyi, Loi, Maria A., Luscombe, Christine K., Makarov, Nikolay S., Mateen, Fahad, Mazzaro, Raffaello, McDaniel, Hunter, McGehee, Michael D., Meinardi, Francesco, Menéndez-Velázquez, Amador, Min, Jie, Mitzi, David B., Moemeni, Mehdi, Moon, Jun Hyuk, Nattestad, Andrew, Nazeeruddin, Mohammad K., Nogueira, Ana F., Paetzold, Ulrich W., Patrick, David L., Pucci, Andrea, Rand, Barry R., Reichmanis, Elsa, Richards, Bryce S., Roncali, Jean, Rosei, Federico, Schmidt, Timothy W., So, Franky, Tu, Chang-Ching, Vahdani, Aria, van Sark, Wilfried G.J.H.M., Verduzco, Rafael, Vomiero, Alberto, Wong, Wallace W.H., Wu, Kaifeng, Yip, Hin-Lap, Zhang, Xiaowei, Zhao, Haiguang, and Lunt, Richard R.

Published

2022

11. Consensus statement: Standardized reporting of power-producing luminescent solar concentrator performance

Author

Integration of Photovoltaic Solar Energy, Energy and Resources, Yang, Chenchen, Atwater, Harry A., Baldo, Marc A., Baran, Derya, Barile, Christopher J., Barr, Miles C., Bates, Matthew, Bawendi, Moungi G., Bergren, Matthew R., Borhan, Babak, Brabec, Christoph J., Brovelli, Sergio, Bulović, Vladimir, Ceroni, Paola, Debije, Michael G., Delgado-Sanchez, Jose-Maria, Dong, Wen-Ji, Duxbury, Phillip M., Evans, Rachel C., Forrest, Stephen R., Gamelin, Daniel R., Giebink, Noel C., Gong, Xiao, Griffini, Gianmarco, Guo, Fei, Herrera, Christopher K., Ho-Baillie, Anita W.Y., Holmes, Russell J., Hong, Sung-Kyu, Kirchartz, Thomas, Levine, Benjamin G., Li, Hongbo, Li, Yilin, Liu, Dianyi, Loi, Maria A., Luscombe, Christine K., Makarov, Nikolay S., Mateen, Fahad, Mazzaro, Raffaello, McDaniel, Hunter, McGehee, Michael D., Meinardi, Francesco, Menéndez-Velázquez, Amador, Min, Jie, Mitzi, David B., Moemeni, Mehdi, Moon, Jun Hyuk, Nattestad, Andrew, Nazeeruddin, Mohammad K., Nogueira, Ana F., Paetzold, Ulrich W., Patrick, David L., Pucci, Andrea, Rand, Barry R., Reichmanis, Elsa, Richards, Bryce S., Roncali, Jean, Rosei, Federico, Schmidt, Timothy W., So, Franky, Tu, Chang-Ching, Vahdani, Aria, van Sark, Wilfried G.J.H.M., Verduzco, Rafael, Vomiero, Alberto, Wong, Wallace W.H., Wu, Kaifeng, Yip, Hin-Lap, Zhang, Xiaowei, Zhao, Haiguang, Lunt, Richard R., Integration of Photovoltaic Solar Energy, Energy and Resources, Yang, Chenchen, Atwater, Harry A., Baldo, Marc A., Baran, Derya, Barile, Christopher J., Barr, Miles C., Bates, Matthew, Bawendi, Moungi G., Bergren, Matthew R., Borhan, Babak, Brabec, Christoph J., Brovelli, Sergio, Bulović, Vladimir, Ceroni, Paola, Debije, Michael G., Delgado-Sanchez, Jose-Maria, Dong, Wen-Ji, Duxbury, Phillip M., Evans, Rachel C., Forrest, Stephen R., Gamelin, Daniel R., Giebink, Noel C., Gong, Xiao, Griffini, Gianmarco, Guo, Fei, Herrera, Christopher K., Ho-Baillie, Anita W.Y., Holmes, Russell J., Hong, Sung-Kyu, Kirchartz, Thomas, Levine, Benjamin G., Li, Hongbo, Li, Yilin, Liu, Dianyi, Loi, Maria A., Luscombe, Christine K., Makarov, Nikolay S., Mateen, Fahad, Mazzaro, Raffaello, McDaniel, Hunter, McGehee, Michael D., Meinardi, Francesco, Menéndez-Velázquez, Amador, Min, Jie, Mitzi, David B., Moemeni, Mehdi, Moon, Jun Hyuk, Nattestad, Andrew, Nazeeruddin, Mohammad K., Nogueira, Ana F., Paetzold, Ulrich W., Patrick, David L., Pucci, Andrea, Rand, Barry R., Reichmanis, Elsa, Richards, Bryce S., Roncali, Jean, Rosei, Federico, Schmidt, Timothy W., So, Franky, Tu, Chang-Ching, Vahdani, Aria, van Sark, Wilfried G.J.H.M., Verduzco, Rafael, Vomiero, Alberto, Wong, Wallace W.H., Wu, Kaifeng, Yip, Hin-Lap, Zhang, Xiaowei, Zhao, Haiguang, and Lunt, Richard R.

Published

2022

12. Consensus Statement: Standardized Reporting of Power-Producing Luminescent Solar Concentrator Performance

Author

Yang, Chenchen, Atwater, Harry A., Baldo, Marc, Baran, Derya, Barile, Christopher, Barr, Miles, Bates, Matthew, Bawendi, Moungi, Bergren, Matthew, Brabec, Christoph J., Brovelli, Sergio, Bulovic, Vladimir, Ceroni, Paola, Debije, Michael G., Delgado-Sanchez, Jose-Maria, Dong, Wen-Ji, Duxbury, Phillip, Evans, Rachel, Forrest, Stephen, Gamelin, Daniel, Giebink, Noel, Gong, Xiao, Griffini, G., Guo, Fei, Herrera, Christopher, Ho-Baillie, Anita, Holmes, Russel, Hong, Sung-Kyu, Kirchartz, Thomas, Li, Hongbo, Li, Yilin, Liu, Dianyi, Loi, Maria, Luscombe, Christine, Makarov, Nikolay, Mateen, Fahad, Mazzaro, Raffaello, McDaniel, Hunter, McGehee, Michael, Meinardi, Francesco, Menendez-Velazquez, Amador, Min, Jie, Mitzi, David, Moon, Jun, Nattestad, Andrew, Nazeeruddin, Mohammad, Nogueira, Ana, Paetzold, Ulrich, Patrick, David, Pucci, Andrea, Rand, Barry, Reichmanis, Elsa, Richards, Bryce, Roncali, Jean, Rosei, Federico, Schmidt, Timothy, So, Franky, Tu, Chang-Ching, van Sark, Wilfried G.J.H.M., Verduzco, Rafael, Vomiero, Alberto, Wong, Wallace, Wu, Kaifeng, Yip, Han-Lap, Zhang, Xiaowei, Zhao, Haiguang, Lunt, Richard, Yang, Chenchen, Atwater, Harry A., Baldo, Marc, Baran, Derya, Barile, Christopher, Barr, Miles, Bates, Matthew, Bawendi, Moungi, Bergren, Matthew, Brabec, Christoph J., Brovelli, Sergio, Bulovic, Vladimir, Ceroni, Paola, Debije, Michael G., Delgado-Sanchez, Jose-Maria, Dong, Wen-Ji, Duxbury, Phillip, Evans, Rachel, Forrest, Stephen, Gamelin, Daniel, Giebink, Noel, Gong, Xiao, Griffini, G., Guo, Fei, Herrera, Christopher, Ho-Baillie, Anita, Holmes, Russel, Hong, Sung-Kyu, Kirchartz, Thomas, Li, Hongbo, Li, Yilin, Liu, Dianyi, Loi, Maria, Luscombe, Christine, Makarov, Nikolay, Mateen, Fahad, Mazzaro, Raffaello, McDaniel, Hunter, McGehee, Michael, Meinardi, Francesco, Menendez-Velazquez, Amador, Min, Jie, Mitzi, David, Moon, Jun, Nattestad, Andrew, Nazeeruddin, Mohammad, Nogueira, Ana, Paetzold, Ulrich, Patrick, David, Pucci, Andrea, Rand, Barry, Reichmanis, Elsa, Richards, Bryce, Roncali, Jean, Rosei, Federico, Schmidt, Timothy, So, Franky, Tu, Chang-Ching, van Sark, Wilfried G.J.H.M., Verduzco, Rafael, Vomiero, Alberto, Wong, Wallace, Wu, Kaifeng, Yip, Han-Lap, Zhang, Xiaowei, Zhao, Haiguang, and Lunt, Richard

Abstract

Fair and meaningful device performance comparison among luminescent solar concentrator-photovoltaic (LSC-PV) reports cannot be realized without a general consensus on reporting standards in LSC-PV research. Therefore, it is imperative to adopt standardized characterization protocols for these emerging types of PV devices that are consistent with other PV devices. This commentary highlights several common limitations in LSC literature and summarizes the best practices moving forward to harmonize with standard PV reporting, considering the greater nuances present with LSC-PV. Based on these practices, a checklist of actionable items is provided to help standardize the characterization/reporting protocols and offer a set of baseline expectations for authors, reviewers, and editors. The general consensus combined with the checklist will ultimately guide LSC-PV research towards reliable and meaningful advances.

Published

2022

13. Consensus statement: Standardized reporting of power-producing luminescent solar concentrator performance

Author

Integration of Photovoltaic Solar Energy, Energy and Resources, Yang, Chenchen, Atwater, Harry A., Baldo, Marc A., Baran, Derya, Barile, Christopher J., Barr, Miles C., Bates, Matthew, Bawendi, Moungi G., Bergren, Matthew R., Borhan, Babak, Brabec, Christoph J., Brovelli, Sergio, Bulović, Vladimir, Ceroni, Paola, Debije, Michael G., Delgado-Sanchez, Jose-Maria, Dong, Wen-Ji, Duxbury, Phillip M., Evans, Rachel C., Forrest, Stephen R., Gamelin, Daniel R., Giebink, Noel C., Gong, Xiao, Griffini, Gianmarco, Guo, Fei, Herrera, Christopher K., Ho-Baillie, Anita W.Y., Holmes, Russell J., Hong, Sung-Kyu, Kirchartz, Thomas, Levine, Benjamin G., Li, Hongbo, Li, Yilin, Liu, Dianyi, Loi, Maria A., Luscombe, Christine K., Makarov, Nikolay S., Mateen, Fahad, Mazzaro, Raffaello, McDaniel, Hunter, McGehee, Michael D., Meinardi, Francesco, Menéndez-Velázquez, Amador, Min, Jie, Mitzi, David B., Moemeni, Mehdi, Moon, Jun Hyuk, Nattestad, Andrew, Nazeeruddin, Mohammad K., Nogueira, Ana F., Paetzold, Ulrich W., Patrick, David L., Pucci, Andrea, Rand, Barry R., Reichmanis, Elsa, Richards, Bryce S., Roncali, Jean, Rosei, Federico, Schmidt, Timothy W., So, Franky, Tu, Chang-Ching, Vahdani, Aria, van Sark, Wilfried G.J.H.M., Verduzco, Rafael, Vomiero, Alberto, Wong, Wallace W.H., Wu, Kaifeng, Yip, Hin-Lap, Zhang, Xiaowei, Zhao, Haiguang, Lunt, Richard R., Integration of Photovoltaic Solar Energy, Energy and Resources, Yang, Chenchen, Atwater, Harry A., Baldo, Marc A., Baran, Derya, Barile, Christopher J., Barr, Miles C., Bates, Matthew, Bawendi, Moungi G., Bergren, Matthew R., Borhan, Babak, Brabec, Christoph J., Brovelli, Sergio, Bulović, Vladimir, Ceroni, Paola, Debije, Michael G., Delgado-Sanchez, Jose-Maria, Dong, Wen-Ji, Duxbury, Phillip M., Evans, Rachel C., Forrest, Stephen R., Gamelin, Daniel R., Giebink, Noel C., Gong, Xiao, Griffini, Gianmarco, Guo, Fei, Herrera, Christopher K., Ho-Baillie, Anita W.Y., Holmes, Russell J., Hong, Sung-Kyu, Kirchartz, Thomas, Levine, Benjamin G., Li, Hongbo, Li, Yilin, Liu, Dianyi, Loi, Maria A., Luscombe, Christine K., Makarov, Nikolay S., Mateen, Fahad, Mazzaro, Raffaello, McDaniel, Hunter, McGehee, Michael D., Meinardi, Francesco, Menéndez-Velázquez, Amador, Min, Jie, Mitzi, David B., Moemeni, Mehdi, Moon, Jun Hyuk, Nattestad, Andrew, Nazeeruddin, Mohammad K., Nogueira, Ana F., Paetzold, Ulrich W., Patrick, David L., Pucci, Andrea, Rand, Barry R., Reichmanis, Elsa, Richards, Bryce S., Roncali, Jean, Rosei, Federico, Schmidt, Timothy W., So, Franky, Tu, Chang-Ching, Vahdani, Aria, van Sark, Wilfried G.J.H.M., Verduzco, Rafael, Vomiero, Alberto, Wong, Wallace W.H., Wu, Kaifeng, Yip, Hin-Lap, Zhang, Xiaowei, Zhao, Haiguang, and Lunt, Richard R.

Published

2022

14. Consensus statement: Standardized reporting of power-producing luminescent solar concentrator performance

Author

Integration of Photovoltaic Solar Energy, Energy and Resources, Yang, Chenchen, Atwater, Harry A., Baldo, Marc A., Baran, Derya, Barile, Christopher J., Barr, Miles C., Bates, Matthew, Bawendi, Moungi G., Bergren, Matthew R., Borhan, Babak, Brabec, Christoph J., Brovelli, Sergio, Bulović, Vladimir, Ceroni, Paola, Debije, Michael G., Delgado-Sanchez, Jose-Maria, Dong, Wen-Ji, Duxbury, Phillip M., Evans, Rachel C., Forrest, Stephen R., Gamelin, Daniel R., Giebink, Noel C., Gong, Xiao, Griffini, Gianmarco, Guo, Fei, Herrera, Christopher K., Ho-Baillie, Anita W.Y., Holmes, Russell J., Hong, Sung-Kyu, Kirchartz, Thomas, Levine, Benjamin G., Li, Hongbo, Li, Yilin, Liu, Dianyi, Loi, Maria A., Luscombe, Christine K., Makarov, Nikolay S., Mateen, Fahad, Mazzaro, Raffaello, McDaniel, Hunter, McGehee, Michael D., Meinardi, Francesco, Menéndez-Velázquez, Amador, Min, Jie, Mitzi, David B., Moemeni, Mehdi, Moon, Jun Hyuk, Nattestad, Andrew, Nazeeruddin, Mohammad K., Nogueira, Ana F., Paetzold, Ulrich W., Patrick, David L., Pucci, Andrea, Rand, Barry R., Reichmanis, Elsa, Richards, Bryce S., Roncali, Jean, Rosei, Federico, Schmidt, Timothy W., So, Franky, Tu, Chang-Ching, Vahdani, Aria, van Sark, Wilfried G.J.H.M., Verduzco, Rafael, Vomiero, Alberto, Wong, Wallace W.H., Wu, Kaifeng, Yip, Hin-Lap, Zhang, Xiaowei, Zhao, Haiguang, Lunt, Richard R., Integration of Photovoltaic Solar Energy, Energy and Resources, Yang, Chenchen, Atwater, Harry A., Baldo, Marc A., Baran, Derya, Barile, Christopher J., Barr, Miles C., Bates, Matthew, Bawendi, Moungi G., Bergren, Matthew R., Borhan, Babak, Brabec, Christoph J., Brovelli, Sergio, Bulović, Vladimir, Ceroni, Paola, Debije, Michael G., Delgado-Sanchez, Jose-Maria, Dong, Wen-Ji, Duxbury, Phillip M., Evans, Rachel C., Forrest, Stephen R., Gamelin, Daniel R., Giebink, Noel C., Gong, Xiao, Griffini, Gianmarco, Guo, Fei, Herrera, Christopher K., Ho-Baillie, Anita W.Y., Holmes, Russell J., Hong, Sung-Kyu, Kirchartz, Thomas, Levine, Benjamin G., Li, Hongbo, Li, Yilin, Liu, Dianyi, Loi, Maria A., Luscombe, Christine K., Makarov, Nikolay S., Mateen, Fahad, Mazzaro, Raffaello, McDaniel, Hunter, McGehee, Michael D., Meinardi, Francesco, Menéndez-Velázquez, Amador, Min, Jie, Mitzi, David B., Moemeni, Mehdi, Moon, Jun Hyuk, Nattestad, Andrew, Nazeeruddin, Mohammad K., Nogueira, Ana F., Paetzold, Ulrich W., Patrick, David L., Pucci, Andrea, Rand, Barry R., Reichmanis, Elsa, Richards, Bryce S., Roncali, Jean, Rosei, Federico, Schmidt, Timothy W., So, Franky, Tu, Chang-Ching, Vahdani, Aria, van Sark, Wilfried G.J.H.M., Verduzco, Rafael, Vomiero, Alberto, Wong, Wallace W.H., Wu, Kaifeng, Yip, Hin-Lap, Zhang, Xiaowei, Zhao, Haiguang, and Lunt, Richard R.

Published

2022

15. Consensus statement: Standardized reporting of power-producing luminescent solar concentrator performance

Author

Yang, C, Atwater, HA, Baldo, MA, Baran, D, Barile, CJ, Barr, MC, Bates, M, Bawendi, MG, Bergren, MR, Borhan, B, Brabec, CJ, Brovelli, S, Bulovic, V, Ceroni, P, Debije, MG, Delgado-Sanchez, J-M, Dong, W-J, Duxbury, PM, Evans, RC, Forrest, SR, Gamelin, DR, Giebink, NC, Gong, X, Griffini, G, Guo, F, Herrera, CK, Ho-Baillie, AWY, Holmes, RJ, Hong, S-K, Kirchartz, T, Levine, BG, Li, H, Li, Y, Liu, D, Loi, MA, Luscombe, CK, Makarov, NS, Mateen, F, Mazzaro, R, McDaniel, H, McGehee, MD, Meinardi, F, Menendez-Velazquez, A, Min, J, Mitzi, DB, Moemeni, M, Moon, JH, Nattestad, A, Nazeeruddin, MK, Nogueira, AF, Paetzold, UW, Patrick, DL, Pucci, A, Rand, BP, Reichmanis, E, Richards, BS, Roncali, J, Rosei, F, Schmidt, TW, So, F, Tu, C-C, Vahdani, A, van Sark, WGJHM, Verduzco, R, Vomiero, A, Wong, WWH, Wu, K, Yip, H-L, Zhang, X, Zhao, H, Lunt, RR, Yang, C, Atwater, HA, Baldo, MA, Baran, D, Barile, CJ, Barr, MC, Bates, M, Bawendi, MG, Bergren, MR, Borhan, B, Brabec, CJ, Brovelli, S, Bulovic, V, Ceroni, P, Debije, MG, Delgado-Sanchez, J-M, Dong, W-J, Duxbury, PM, Evans, RC, Forrest, SR, Gamelin, DR, Giebink, NC, Gong, X, Griffini, G, Guo, F, Herrera, CK, Ho-Baillie, AWY, Holmes, RJ, Hong, S-K, Kirchartz, T, Levine, BG, Li, H, Li, Y, Liu, D, Loi, MA, Luscombe, CK, Makarov, NS, Mateen, F, Mazzaro, R, McDaniel, H, McGehee, MD, Meinardi, F, Menendez-Velazquez, A, Min, J, Mitzi, DB, Moemeni, M, Moon, JH, Nattestad, A, Nazeeruddin, MK, Nogueira, AF, Paetzold, UW, Patrick, DL, Pucci, A, Rand, BP, Reichmanis, E, Richards, BS, Roncali, J, Rosei, F, Schmidt, TW, So, F, Tu, C-C, Vahdani, A, van Sark, WGJHM, Verduzco, R, Vomiero, A, Wong, WWH, Wu, K, Yip, H-L, Zhang, X, Zhao, H, and Lunt, RR

Published

2022

16. Consensus statement: Standardized reporting of power-producing luminescent solar concentrator performance

Author

Integration of Photovoltaic Solar Energy, Energy and Resources, Yang, Chenchen, Atwater, Harry A., Baldo, Marc A., Baran, Derya, Barile, Christopher J., Barr, Miles C., Bates, Matthew, Bawendi, Moungi G., Bergren, Matthew R., Borhan, Babak, Brabec, Christoph J., Brovelli, Sergio, Bulović, Vladimir, Ceroni, Paola, Debije, Michael G., Delgado-Sanchez, Jose-Maria, Dong, Wen-Ji, Duxbury, Phillip M., Evans, Rachel C., Forrest, Stephen R., Gamelin, Daniel R., Giebink, Noel C., Gong, Xiao, Griffini, Gianmarco, Guo, Fei, Herrera, Christopher K., Ho-Baillie, Anita W.Y., Holmes, Russell J., Hong, Sung-Kyu, Kirchartz, Thomas, Levine, Benjamin G., Li, Hongbo, Li, Yilin, Liu, Dianyi, Loi, Maria A., Luscombe, Christine K., Makarov, Nikolay S., Mateen, Fahad, Mazzaro, Raffaello, McDaniel, Hunter, McGehee, Michael D., Meinardi, Francesco, Menéndez-Velázquez, Amador, Min, Jie, Mitzi, David B., Moemeni, Mehdi, Moon, Jun Hyuk, Nattestad, Andrew, Nazeeruddin, Mohammad K., Nogueira, Ana F., Paetzold, Ulrich W., Patrick, David L., Pucci, Andrea, Rand, Barry R., Reichmanis, Elsa, Richards, Bryce S., Roncali, Jean, Rosei, Federico, Schmidt, Timothy W., So, Franky, Tu, Chang-Ching, Vahdani, Aria, van Sark, Wilfried G.J.H.M., Verduzco, Rafael, Vomiero, Alberto, Wong, Wallace W.H., Wu, Kaifeng, Yip, Hin-Lap, Zhang, Xiaowei, Zhao, Haiguang, Lunt, Richard R., Integration of Photovoltaic Solar Energy, Energy and Resources, Yang, Chenchen, Atwater, Harry A., Baldo, Marc A., Baran, Derya, Barile, Christopher J., Barr, Miles C., Bates, Matthew, Bawendi, Moungi G., Bergren, Matthew R., Borhan, Babak, Brabec, Christoph J., Brovelli, Sergio, Bulović, Vladimir, Ceroni, Paola, Debije, Michael G., Delgado-Sanchez, Jose-Maria, Dong, Wen-Ji, Duxbury, Phillip M., Evans, Rachel C., Forrest, Stephen R., Gamelin, Daniel R., Giebink, Noel C., Gong, Xiao, Griffini, Gianmarco, Guo, Fei, Herrera, Christopher K., Ho-Baillie, Anita W.Y., Holmes, Russell J., Hong, Sung-Kyu, Kirchartz, Thomas, Levine, Benjamin G., Li, Hongbo, Li, Yilin, Liu, Dianyi, Loi, Maria A., Luscombe, Christine K., Makarov, Nikolay S., Mateen, Fahad, Mazzaro, Raffaello, McDaniel, Hunter, McGehee, Michael D., Meinardi, Francesco, Menéndez-Velázquez, Amador, Min, Jie, Mitzi, David B., Moemeni, Mehdi, Moon, Jun Hyuk, Nattestad, Andrew, Nazeeruddin, Mohammad K., Nogueira, Ana F., Paetzold, Ulrich W., Patrick, David L., Pucci, Andrea, Rand, Barry R., Reichmanis, Elsa, Richards, Bryce S., Roncali, Jean, Rosei, Federico, Schmidt, Timothy W., So, Franky, Tu, Chang-Ching, Vahdani, Aria, van Sark, Wilfried G.J.H.M., Verduzco, Rafael, Vomiero, Alberto, Wong, Wallace W.H., Wu, Kaifeng, Yip, Hin-Lap, Zhang, Xiaowei, Zhao, Haiguang, and Lunt, Richard R.

Published

2022

17. Consensus statement: Standardized reporting of power-producing luminescent solar concentrator performance

Author

Integration of Photovoltaic Solar Energy, Energy and Resources, Yang, Chenchen, Atwater, Harry A., Baldo, Marc A., Baran, Derya, Barile, Christopher J., Barr, Miles C., Bates, Matthew, Bawendi, Moungi G., Bergren, Matthew R., Borhan, Babak, Brabec, Christoph J., Brovelli, Sergio, Bulović, Vladimir, Ceroni, Paola, Debije, Michael G., Delgado-Sanchez, Jose-Maria, Dong, Wen-Ji, Duxbury, Phillip M., Evans, Rachel C., Forrest, Stephen R., Gamelin, Daniel R., Giebink, Noel C., Gong, Xiao, Griffini, Gianmarco, Guo, Fei, Herrera, Christopher K., Ho-Baillie, Anita W.Y., Holmes, Russell J., Hong, Sung-Kyu, Kirchartz, Thomas, Levine, Benjamin G., Li, Hongbo, Li, Yilin, Liu, Dianyi, Loi, Maria A., Luscombe, Christine K., Makarov, Nikolay S., Mateen, Fahad, Mazzaro, Raffaello, McDaniel, Hunter, McGehee, Michael D., Meinardi, Francesco, Menéndez-Velázquez, Amador, Min, Jie, Mitzi, David B., Moemeni, Mehdi, Moon, Jun Hyuk, Nattestad, Andrew, Nazeeruddin, Mohammad K., Nogueira, Ana F., Paetzold, Ulrich W., Patrick, David L., Pucci, Andrea, Rand, Barry R., Reichmanis, Elsa, Richards, Bryce S., Roncali, Jean, Rosei, Federico, Schmidt, Timothy W., So, Franky, Tu, Chang-Ching, Vahdani, Aria, van Sark, Wilfried G.J.H.M., Verduzco, Rafael, Vomiero, Alberto, Wong, Wallace W.H., Wu, Kaifeng, Yip, Hin-Lap, Zhang, Xiaowei, Zhao, Haiguang, Lunt, Richard R., Integration of Photovoltaic Solar Energy, Energy and Resources, Yang, Chenchen, Atwater, Harry A., Baldo, Marc A., Baran, Derya, Barile, Christopher J., Barr, Miles C., Bates, Matthew, Bawendi, Moungi G., Bergren, Matthew R., Borhan, Babak, Brabec, Christoph J., Brovelli, Sergio, Bulović, Vladimir, Ceroni, Paola, Debije, Michael G., Delgado-Sanchez, Jose-Maria, Dong, Wen-Ji, Duxbury, Phillip M., Evans, Rachel C., Forrest, Stephen R., Gamelin, Daniel R., Giebink, Noel C., Gong, Xiao, Griffini, Gianmarco, Guo, Fei, Herrera, Christopher K., Ho-Baillie, Anita W.Y., Holmes, Russell J., Hong, Sung-Kyu, Kirchartz, Thomas, Levine, Benjamin G., Li, Hongbo, Li, Yilin, Liu, Dianyi, Loi, Maria A., Luscombe, Christine K., Makarov, Nikolay S., Mateen, Fahad, Mazzaro, Raffaello, McDaniel, Hunter, McGehee, Michael D., Meinardi, Francesco, Menéndez-Velázquez, Amador, Min, Jie, Mitzi, David B., Moemeni, Mehdi, Moon, Jun Hyuk, Nattestad, Andrew, Nazeeruddin, Mohammad K., Nogueira, Ana F., Paetzold, Ulrich W., Patrick, David L., Pucci, Andrea, Rand, Barry R., Reichmanis, Elsa, Richards, Bryce S., Roncali, Jean, Rosei, Federico, Schmidt, Timothy W., So, Franky, Tu, Chang-Ching, Vahdani, Aria, van Sark, Wilfried G.J.H.M., Verduzco, Rafael, Vomiero, Alberto, Wong, Wallace W.H., Wu, Kaifeng, Yip, Hin-Lap, Zhang, Xiaowei, Zhao, Haiguang, and Lunt, Richard R.

Published

2022

18. L’ascolto, la vergogna, la speranza... per chiudere tenendo aperto il cantiere

Author

Gianfreda, A, Griffini, C., Chizzoniti, Antonio Giuseppe Maria, Chizzoniti Antonio (ORCID:0000-0001-8894-9488), Gianfreda, A, Griffini, C., Chizzoniti, Antonio Giuseppe Maria, and Chizzoniti Antonio (ORCID:0000-0001-8894-9488)

Abstract

Il saggio rileggendo il volume "Accountability e tutela nella Chiesa Proteggere i minori dagli abusi oggi", propone una riflessione sull'azione della Chiesa cattolica rispetto alla piaga degli abusi sui minori e sulle persone fragili. Ascolto e trasparenza divengono due moneti fondamentali per poter bene collocare le riforme del Libro IV del Codice di diritto canonico nell'azione della Chiesa per la prevenzione e la tutela dei minori.

Published

2022

19. Prendersi cura dei legami familiari per promuovere la tutela dei minori

Author

Gianfreda, A, Griffini, C, Ranieri, Sonia, Ferrari, Laura, Iafrate, Raffaella, Ranieri S. (ORCID:0000-0003-4914-8842), Ferrari L. (ORCID:0000-0003-2379-6227), Iafrate R. (ORCID:0000-0003-1311-8983), Gianfreda, A, Griffini, C, Ranieri, Sonia, Ferrari, Laura, Iafrate, Raffaella, Ranieri S. (ORCID:0000-0003-4914-8842), Ferrari L. (ORCID:0000-0003-2379-6227), and Iafrate R. (ORCID:0000-0003-1311-8983)

Abstract

In questo contributo intendiamo proporre alcuni spunti di riflessione e di intervento sul tema della creazione di una rinnovata cultura della tutela dei minori, a partire da una specifica prospettiva relazionale-simbolica dei legami familiari e sociali che orienta la nostra attività di studio e di ricerca, ma anche di lavoro con le famiglie. Questa prospettiva si è sviluppata e consolidata in anni di studio interdisciplinare e di incontro con le famiglie presso il Centro di Ateneo Studi e Ricerche sulla Famiglia dell’Università Cattolica del Sacro Cuore di Milano.

Published

2022

20. Ferite invisibili e responsabilità educative

Author

Gianfreda, A., Griffini, C., Musi, Elisabetta, Elisabetta Musi (ORCID:0000-0003-0484-5679), Gianfreda, A., Griffini, C., Musi, Elisabetta, and Elisabetta Musi (ORCID:0000-0003-0484-5679)

Abstract

Il saggio si concentra sui danni e le conseguenze a breve e lungo termine che abusi e maltrattamenti sui minori possono produrre. Assumendo la prospettiva pedagogica si propone di indagare le vie di fronteggiamento del fenomeno, a partire dalla responsabilità degli adulti di interrogare la quotidianità e di diventare consapevoli delle proprie ferite, da cui spesso hanno origine i comportamenti violenti verso i più piccoli.

Published

2022

21. Consensus Statement: Standardized Reporting of Power-Producing Luminescent Solar Concentrator Performance

Author

Yang, Chenchen, Atwater, Harry A., Baldo, Marc, Baran, Derya, Barile, Christopher, Barr, Miles, Bates, Matthew, Bawendi, Moungi, Bergren, Matthew, Brabec, Christoph J., Brovelli, Sergio, Bulovic, Vladimir, Ceroni, Paola, Debije, Michael G., Delgado-Sanchez, Jose-Maria, Dong, Wen-Ji, Duxbury, Phillip, Evans, Rachel, Forrest, Stephen, Gamelin, Daniel, Giebink, Noel, Gong, Xiao, Griffini, G., Guo, Fei, Herrera, Christopher, Ho-Baillie, Anita, Holmes, Russel, Hong, Sung-Kyu, Kirchartz, Thomas, Li, Hongbo, Li, Yilin, Liu, Dianyi, Loi, Maria, Luscombe, Christine, Makarov, Nikolay, Mateen, Fahad, Mazzaro, Raffaello, McDaniel, Hunter, McGehee, Michael, Meinardi, Francesco, Menendez-Velazquez, Amador, Min, Jie, Mitzi, David, Moon, Jun, Nattestad, Andrew, Nazeeruddin, Mohammad, Nogueira, Ana, Paetzold, Ulrich, Patrick, David, Pucci, Andrea, Rand, Barry, Reichmanis, Elsa, Richards, Bryce, Roncali, Jean, Rosei, Federico, Schmidt, Timothy, So, Franky, Tu, Chang-Ching, van Sark, Wilfried G.J.H.M., Verduzco, Rafael, Vomiero, Alberto, Wong, Wallace, Wu, Kaifeng, Yip, Han-Lap, Zhang, Xiaowei, Zhao, Haiguang, Lunt, Richard, Yang, Chenchen, Atwater, Harry A., Baldo, Marc, Baran, Derya, Barile, Christopher, Barr, Miles, Bates, Matthew, Bawendi, Moungi, Bergren, Matthew, Brabec, Christoph J., Brovelli, Sergio, Bulovic, Vladimir, Ceroni, Paola, Debije, Michael G., Delgado-Sanchez, Jose-Maria, Dong, Wen-Ji, Duxbury, Phillip, Evans, Rachel, Forrest, Stephen, Gamelin, Daniel, Giebink, Noel, Gong, Xiao, Griffini, G., Guo, Fei, Herrera, Christopher, Ho-Baillie, Anita, Holmes, Russel, Hong, Sung-Kyu, Kirchartz, Thomas, Li, Hongbo, Li, Yilin, Liu, Dianyi, Loi, Maria, Luscombe, Christine, Makarov, Nikolay, Mateen, Fahad, Mazzaro, Raffaello, McDaniel, Hunter, McGehee, Michael, Meinardi, Francesco, Menendez-Velazquez, Amador, Min, Jie, Mitzi, David, Moon, Jun, Nattestad, Andrew, Nazeeruddin, Mohammad, Nogueira, Ana, Paetzold, Ulrich, Patrick, David, Pucci, Andrea, Rand, Barry, Reichmanis, Elsa, Richards, Bryce, Roncali, Jean, Rosei, Federico, Schmidt, Timothy, So, Franky, Tu, Chang-Ching, van Sark, Wilfried G.J.H.M., Verduzco, Rafael, Vomiero, Alberto, Wong, Wallace, Wu, Kaifeng, Yip, Han-Lap, Zhang, Xiaowei, Zhao, Haiguang, and Lunt, Richard

Abstract

Fair and meaningful device performance comparison among luminescent solar concentrator-photovoltaic (LSC-PV) reports cannot be realized without a general consensus on reporting standards in LSC-PV research. Therefore, it is imperative to adopt standardized characterization protocols for these emerging types of PV devices that are consistent with other PV devices. This commentary highlights several common limitations in LSC literature and summarizes the best practices moving forward to harmonize with standard PV reporting, considering the greater nuances present with LSC-PV. Based on these practices, a checklist of actionable items is provided to help standardize the characterization/reporting protocols and offer a set of baseline expectations for authors, reviewers, and editors. The general consensus combined with the checklist will ultimately guide LSC-PV research towards reliable and meaningful advances.

Published

2022

22. Dalla tutela alla salvaguardia di minori e vulnerabili nella Chiesa: metodi e contenuti per una rinnovata giustizia ecclesiale in tema di abusi del clero

Author

Gianfreda, A, Griffini, C, Gianfreda, A (ORCID:0000-0002-5739-8991), Gianfreda, A, Griffini, C, and Gianfreda, A (ORCID:0000-0002-5739-8991)

Abstract

Il contributo esamina l'evoluzione del diritto della Chiesa nella tutela e salvaguardia dei minori all'interno degli ambienti ecclesiali. Esso prende in esame l'approccio e l'atteggiamento complessivo della Chiesa cattolica, che attraverso l'ascolto delle vittime di abusi, ha preso consapevolezza del fenomeno e ha adottato un approccio sistematico di prevenzione e reazione giuridica.

Published

2022

23. Synthesis of conjugated polymers by sustainable Suzuki polycondensation in water and under aerobic conditions

Author

Sanzone, A, Calascibetta, A, Monti, M, Mattiello, S, Sassi, M, Corsini, F, Griffini, G, Sommer, M, Beverina, L, Sanzone A., Calascibetta A., Monti M., Mattiello S., Sassi M., Corsini F., Griffini G., Sommer M., Beverina L., Sanzone, A, Calascibetta, A, Monti, M, Mattiello, S, Sassi, M, Corsini, F, Griffini, G, Sommer, M, Beverina, L, Sanzone A., Calascibetta A., Monti M., Mattiello S., Sassi M., Corsini F., Griffini G., Sommer M., and Beverina L.

Abstract

Conjugated semiconducting polymers are key materials enabling plastic (opto)electronic devices. Research in the field has a generally strong focus on the constant improvement of backbone structure and the resulting properties. Comparatively fewer studies are devoted to improving the sustainability of the synthetic route that leads to a material under scrutiny. Exemplified by the two established and commercially available luminescent polymers poly(9,9-dioctylfluorene-alt-bithiophene) (PF8T2) and poly(9,9-dioctylfluorene-alt-benzothiadiazole) (PF8BT), this work describes the first examples of efficient Suzuki-Miyaura polycondensations in water, under ambient environment, with minimal amount of organic solvent and with moderate heating. The synthetic approach enables a reduction of the E-factor (mass of organic waste/mass of product) by 1 order of magnitude, without negatively affecting molecular weight, dispersity, chemical structure, or photochemical stability of PF8T2 or PF8BT.

Published

2020

24. Libertà religiosa e Covid-19: tra diritto alla salute e salus animarum. I Focus del dossier OLIR 'Emergenza coronavirus'

Author

Mazzoni Giulia, Milani, D, Negri, A, Mazzoni, G, Abu Salem, M, Gianfreda, A, Montesano, S, Ferrari, A, Rimoldi, T, Fuccillo, A, Santoro, R, Decimo, L, Bilotti, D, Tredez-Lopez, M, Cianitto, C, Baltaretu, D, Garciandìa Igal, D, Saccenti, R, Griffini, C, Maier, R, Madonna, M, Bova, V, Del Bò, C, Mozzi, R, Mazzoni, Giulia, Alessandro, Negri, Mazzoni Giulia, Milani, D, Negri, A, Mazzoni, G, Abu Salem, M, Gianfreda, A, Montesano, S, Ferrari, A, Rimoldi, T, Fuccillo, A, Santoro, R, Decimo, L, Bilotti, D, Tredez-Lopez, M, Cianitto, C, Baltaretu, D, Garciandìa Igal, D, Saccenti, R, Griffini, C, Maier, R, Madonna, M, Bova, V, Del Bò, C, Mozzi, R, Mazzoni, Giulia, and Alessandro, Negri

Abstract

L’evidente rilevanza degli effetti che la pandemia da SARS-Cov-2 ha avuto sui rapporti tra diritto e religione ha indotto la redazione di OLIR.it ad aprire un apposito dossier dedicato all’emergenza sanitaria con l’obiettivo non solo di organizzare in forma sistematica i documenti più rilevanti, ma anche di proporre, attraverso appositi Focus, idee e riflessioni su quanto è avvenuto. Raccogliendo i Focus pubblicati nel dossier “Emergenza Coronavirus” questo volume si presenta come una sorta di diario dell’emergenza, capace di ripercorrere, in ordine cronologico e contestualizzato, la scansione e l’evoluzione delle diverse fasi della pandemia. I Focus qui raccolti sono stati sistematicamente organizzati in tre sezioni. La prima, è dedicata all’impatto dell’emergenza sulla libertà religiosa in Italia, la seconda in alcuni Paesi europei ed extraeuropei, la terza alle prospettive offerte da altre discipline, quali la psicologia, la teologia o la filosofia del diritto.

Published

2021

25. La prevenzione nei gruppi e nelle comunità. Dai vuoti alle aperture: coltivare resilienza

Author

Griffini C., Augelli, Alessandra, Augelli, Griffini C., Augelli, Alessandra, and Augelli

Abstract

Il contributo intende far luce sui processi di prevenzione della forme di violenza implicite ed esplicite che possono presentarsi nei gruppi e nelle esperienze di associazionismo. Il riconoscimento e la promozione di legami sani e liberi è uno dei presupposti più importanti, perché la comunità vigili sulle possibili disfunzioni e storture. Viene presentato il concetto di resilienza comunitaria mettendone in luce tutti gli elementi che attengono al singolo, ai gruppi e alla rete di realtà locali perché si possano coltivare non tanto e non solo rispetto a particolari eventi critici, ma in una prospettiva preventiva.

Published

2021

26. La valutazione del 'Progetto Safe - Educare e accogliere in ambienti sicuri'

Author

Chiara Griffini, Musi, Elisabetta, Barabaschi, Barbara, Fabrizi, Enrico, Ranieri, Sonia, Rizzi, Paolo, Elisabetta Musi (ORCID:0000-0003-0484-5679), Barbara Barabaschi (ORCID:0000-0003-4254-8421), Enrico Fabrizi (ORCID:0000-0003-2504-7043), Sonia Ranieri (ORCID:0000-0003-4914-8842), Paolo Rizzi (ORCID:0000-0001-9410-3649), Chiara Griffini, Musi, Elisabetta, Barabaschi, Barbara, Fabrizi, Enrico, Ranieri, Sonia, Rizzi, Paolo, Elisabetta Musi (ORCID:0000-0003-0484-5679), Barbara Barabaschi (ORCID:0000-0003-4254-8421), Enrico Fabrizi (ORCID:0000-0003-2504-7043), Sonia Ranieri (ORCID:0000-0003-4914-8842), and Paolo Rizzi (ORCID:0000-0001-9410-3649)

Abstract

Il saggio espone i risultati del monitoraggio e della valutazione promossa dai tre soggetti promotori la ricerca - Ass. Papa Giovanni XXII, CSI, Azione Cattolica - realizzata attraverso una rilevazione comparativa prima e dopo il corso di formazione dedicato al personale educativo e volontario che opera nei contesti dei tre enti a favore dei minori.

Published

2021

27. Implicaciones del uso de los Sistemas de Armas Autónomas Letales (Laws) en los conflictos armados modernos

Author

Pugliese, Pablo, Griffini, Bautista, Pugliese, Pablo, and Griffini, Bautista

Abstract

In recent years, the growing developments in Artificial Intelligence have become one of the main sources of technological innovation. However, its application in various types of weapons systems begins to highlight the fundamental problems of its use incurrent and future conflict scenarios. Starting from a deep analysis, this work studies a series of points on which the use of Lethal Autonomous Weapons Systems can generate controversy. From technology as a disruptive factor on the battlefield,through the conceptual problems in defining Artificial Intelligence, the ethical and legal dilemmas in the use of these systems, to the implications of their use in the international system, we conclude that the use of these systems would bring about a process of "dehumanization of war"., En los últimos años, los crecientes desarrollos en el campo de la Inteligencia Artificial se han convertido en uno de los principales motores de innovación tecnológica. Sin embargo, su aplicación en diversos tipos de sistemas de armas comienza a poner de relieve las problemáticas fundamentales de su uso en los escenarios de conflicto tanto actuales como futuros. A partir de un análisis profundo, este trabajo estudia una serie de puntos sobre los cuales la utilización de los Sistemas de Armas Autónomas Letales puede generar controversia. Partiendo desde la tecnología como factor disruptivo en el campo de batalla, pasando por los problemas conceptuales en la definición de la Inteligencia Artificial, recorriendo los dilemas éticos y jurídicos en el uso de estos sistemas, arribando hasta las implicancias de su utilización en el escenario internacional, llegamos a la conclusión de que el uso de estos sistemas traería consigo un proceso de “deshumanización de la guerra”.

Published

2021

28. Revealing structural evolution occurring from photo-initiated polymer network formation

Author

Brett, Calvin J., Montani, Annaclaudia, Schwartzkopf, M., van Benthem, R. A. T. M., Jansen, J. F. G. A., Griffini, G., Roth, Stephan Volkher, Johansson, Mats K.G., Brett, Calvin J., Montani, Annaclaudia, Schwartzkopf, M., van Benthem, R. A. T. M., Jansen, J. F. G. A., Griffini, G., Roth, Stephan Volkher, and Johansson, Mats K.G.

Abstract

Photopolymerization is a key enabling technology offering spatial and temporal control to allow for future functional materials to be made to meet societal needs. However, gaining access to robust experimental techniques to describe the evolution of nanoscale morphology in photo-initiated polymeric systems has proven so far to be a challenging task. Here, we show that these physical transformations can be monitored and quantified at the nanoscale in situ and in real-time. It is demonstrated that the initial structural features of the liquid precursors significantly affect the final morphology and the physical properties of the resulting solid via the occurrence of local heterogeneities in the molecular mobility during the curing transformation. We have made visible how local physical arrestings in the liquid, associated with both cross-linking and vitrification, determine the length scale of the local heterogeneities forming upon curing, found to be in the 10-200nm range. Acomplete account of the structural evolution occurring during photopolymerisation is lacking. Here the physical changes occurring on the nanometer scale during photopolymerisation of acrylates are followed over time by FTIR, X-ray reflectometry, AFM, and GISAXS, offering insight into the mechanism by which initial composition influences the final morphology., QC 20200909

Published

2020

29. IER-SICH Nomogram to Predict Symptomatic Intracerebral Hemorrhage After Thrombectomy for Stroke

Author

Cappellari, M., Mangiafico, S., Saia, V., Pracucci, G., Nappini, S., Nencini, P., Konda, D., Sallustio, F., Vallone, S., Zini, A., Bracco, S., Tassi, R., Bergui, M., Cerrato, P., Pitrone, A., Grillo, F., Saletti, A., De Vito, A., Gasparotti, Roberto, Magoni, M., Puglielli, E., Casalena, A., Causin, F., Baracchini, C., Castellan, L., Malfatto, L., Menozzi, R., Scoditti, U., Comelli, C., Duc, E., Comai, A., Franchini, E., Cosottini, M., Mancuso, M., Peschillo, S., De Michele, M., Giorgianni, A., Delodovici, M. L., Lafe, E., Denaro, M. F., Burdi, N., Interno, S., Cavasin, N., Critelli, A., Chiumarulo, L., Petruzzellis, M., Doddi, M., Carolei, A., Auteri, W., Petrone, A., Padolecchia, R., Tassinari, T., Pavia, M., Invernizzi, P., Turcato, G., Forlivesi, S., Ciceri, E. F. M., Bonetti, B., Inzitari, D., Toni D., Limbucci N, Consoli, A, Renieri, L, Fainardi, E, Gandini, R, Pampana, E, Diomedi, M, Koch, G, Verganti, L, Sacchetti, F, Zelent, G, Bigliardi, G, Picchetto, L, Vandelli, L, Romano, Dg, Cioni, S, Gennari, P, Cerase, A, Martini, G, Stura, G, Daniele, D, Naldi, A, Papa, R, Vinci, Sl, Bernava, G, Velo, M, Caragliano, A, Tessitore, A, Buonomo, O, Musolino, R, La Spina, P, Casella, C, Carolina Fazio, M, Cotroneo, M, Onofrio, M, Azzini, C, Casetta, I, Mardighian, D, Frigerio, M, Costa, A, Di Egidio, V, Lattanzi, R, Assetta, M, Cester, G, Mavilio, N, Serrati, C, Piazza, P, Epifani, E, Andreone, A, Castellini, P, Latte, L, Grisendi, I, Vaudano, G, Comelli, S, Cavallo, R, Chianale, G, Simonetti, L, Taglialatela, F, Isceri, S, Procaccianti, G, Zaniboni, A, Borghi, A, Bonatti, G, Ferro, F, Bonatti, M, Dall'Ora, E, Currò Dossi, R, Turri, E, Turri, M, Puglioli, M, Lazzarotti, G, Lauretti, D, Giannini, N, Maccarone, M, Orlandi, G, Chiti, A, Guidetti, G, Biraschi, F, Falcou, A, Anzini, A, Mancini, A, Fausti, S, Di Mascio, Mt, Durastanti, L, Sbardella, E, Mellina, V, Baruzzi, F, Pellegrino, C, Terrana, A, Carimati, F, Ruggiero, M, Sanna, A, Passarin, Mg, Colosimo, C, Pedicelli, A, D'Argento, F, Alexandre, A, Frisullo, G, Zappoli, F, Martignoni, A, Cavallini, A, Persico, A, Valvassori, L, Piano, M, Agostoni, E, Motto, C, Gatti, A, Longoni, M, Guccione, A, Tortorella, R, Zampieri, P, Zimatore, D, Grazioli, A, Ricciardi, Gk, Augelli, R, Bovi, P, Tomelleri, G, Micheletti, N, Semeraro, V, Lucarelli, N, Ganimede, M, Tinelli, A, Pia Prontera, M, Pesare, A, Cagliari, E, Quatrale, R, Federico, F, Passalacqua, G, Filauri, P, Orlandi, B, De Santis, F, Gabriele, A, Tiseo, C, Armentano, A, Di Benedetto, O, Silvagni, U, Perrotta, P, Crispino, E, Stancati, F, Rizzuto, S, Pugliese, P, Pisani, E, Siniscalchi, A, Gaudiano, C, Pirritano, D, Del Giudice, F, Calia, S, Ganci, G, Sugo, A, Scomazzoni, F, Simionato, F, Roveri, L, De Nicola, M, Giannoni, M, Bruni, S, Gambelli, E, Provinciali, L, Carriero, A, Coppo, L, Baldan, J, Paolo Nuzzi, N, Marcheselli, S, Corato, M, Cotroneo, E, Ricciardi, F, Gigli, R, Pozzessere, C, Pezzella, Fr, Corsi, F, Squassina, G, Cobelli, M, Morassi, M, Magni, Eugenio, Pepe, F, Bigni, B, Costa, P, Crabbio, M, Griffini, S, Palmerini, F, Piras, Mp, Natrella, M, Fanelli, G, Cristoferi, M, Bottacchi, E, Corso, G, Tosi, P, Amistà, P, Russo, M, Tettoni, S, Gallesio, I, Mascolo, Mc, Meloni, Gb, Fabio, C, Maiore, M, Pintus, F, Pischedda, A, Manca, A, Mongili, C, Zanda, B, Baule, A, Pappalardo, Mp, Craparo, G, Gallo, C, Monaco, S, Mannino, M, Terruso, V, Muto, M, Guarnieri, G, Andreone, V, Dui, G, Ticca, A, Salmaggi, A, Iannucci, G, Pinna, V, Di Clemente, L, Perini, F, De Boni, A, De Luca, C, De Giorgi, F, Corraine, S, Enne, P, Ganau, C, Piras, V., Gasparotti R., Magni E (ORCID:0000-0002-2235-2280), Cappellari, M., Mangiafico, S., Saia, V., Pracucci, G., Nappini, S., Nencini, P., Konda, D., Sallustio, F., Vallone, S., Zini, A., Bracco, S., Tassi, R., Bergui, M., Cerrato, P., Pitrone, A., Grillo, F., Saletti, A., De Vito, A., Gasparotti, Roberto, Magoni, M., Puglielli, E., Casalena, A., Causin, F., Baracchini, C., Castellan, L., Malfatto, L., Menozzi, R., Scoditti, U., Comelli, C., Duc, E., Comai, A., Franchini, E., Cosottini, M., Mancuso, M., Peschillo, S., De Michele, M., Giorgianni, A., Delodovici, M. L., Lafe, E., Denaro, M. F., Burdi, N., Interno, S., Cavasin, N., Critelli, A., Chiumarulo, L., Petruzzellis, M., Doddi, M., Carolei, A., Auteri, W., Petrone, A., Padolecchia, R., Tassinari, T., Pavia, M., Invernizzi, P., Turcato, G., Forlivesi, S., Ciceri, E. F. M., Bonetti, B., Inzitari, D., Toni D., Limbucci N, Consoli, A, Renieri, L, Fainardi, E, Gandini, R, Pampana, E, Diomedi, M, Koch, G, Verganti, L, Sacchetti, F, Zelent, G, Bigliardi, G, Picchetto, L, Vandelli, L, Romano, Dg, Cioni, S, Gennari, P, Cerase, A, Martini, G, Stura, G, Daniele, D, Naldi, A, Papa, R, Vinci, Sl, Bernava, G, Velo, M, Caragliano, A, Tessitore, A, Buonomo, O, Musolino, R, La Spina, P, Casella, C, Carolina Fazio, M, Cotroneo, M, Onofrio, M, Azzini, C, Casetta, I, Mardighian, D, Frigerio, M, Costa, A, Di Egidio, V, Lattanzi, R, Assetta, M, Cester, G, Mavilio, N, Serrati, C, Piazza, P, Epifani, E, Andreone, A, Castellini, P, Latte, L, Grisendi, I, Vaudano, G, Comelli, S, Cavallo, R, Chianale, G, Simonetti, L, Taglialatela, F, Isceri, S, Procaccianti, G, Zaniboni, A, Borghi, A, Bonatti, G, Ferro, F, Bonatti, M, Dall'Ora, E, Currò Dossi, R, Turri, E, Turri, M, Puglioli, M, Lazzarotti, G, Lauretti, D, Giannini, N, Maccarone, M, Orlandi, G, Chiti, A, Guidetti, G, Biraschi, F, Falcou, A, Anzini, A, Mancini, A, Fausti, S, Di Mascio, Mt, Durastanti, L, Sbardella, E, Mellina, V, Baruzzi, F, Pellegrino, C, Terrana, A, Carimati, F, Ruggiero, M, Sanna, A, Passarin, Mg, Colosimo, C, Pedicelli, A, D'Argento, F, Alexandre, A, Frisullo, G, Zappoli, F, Martignoni, A, Cavallini, A, Persico, A, Valvassori, L, Piano, M, Agostoni, E, Motto, C, Gatti, A, Longoni, M, Guccione, A, Tortorella, R, Zampieri, P, Zimatore, D, Grazioli, A, Ricciardi, Gk, Augelli, R, Bovi, P, Tomelleri, G, Micheletti, N, Semeraro, V, Lucarelli, N, Ganimede, M, Tinelli, A, Pia Prontera, M, Pesare, A, Cagliari, E, Quatrale, R, Federico, F, Passalacqua, G, Filauri, P, Orlandi, B, De Santis, F, Gabriele, A, Tiseo, C, Armentano, A, Di Benedetto, O, Silvagni, U, Perrotta, P, Crispino, E, Stancati, F, Rizzuto, S, Pugliese, P, Pisani, E, Siniscalchi, A, Gaudiano, C, Pirritano, D, Del Giudice, F, Calia, S, Ganci, G, Sugo, A, Scomazzoni, F, Simionato, F, Roveri, L, De Nicola, M, Giannoni, M, Bruni, S, Gambelli, E, Provinciali, L, Carriero, A, Coppo, L, Baldan, J, Paolo Nuzzi, N, Marcheselli, S, Corato, M, Cotroneo, E, Ricciardi, F, Gigli, R, Pozzessere, C, Pezzella, Fr, Corsi, F, Squassina, G, Cobelli, M, Morassi, M, Magni, Eugenio, Pepe, F, Bigni, B, Costa, P, Crabbio, M, Griffini, S, Palmerini, F, Piras, Mp, Natrella, M, Fanelli, G, Cristoferi, M, Bottacchi, E, Corso, G, Tosi, P, Amistà, P, Russo, M, Tettoni, S, Gallesio, I, Mascolo, Mc, Meloni, Gb, Fabio, C, Maiore, M, Pintus, F, Pischedda, A, Manca, A, Mongili, C, Zanda, B, Baule, A, Pappalardo, Mp, Craparo, G, Gallo, C, Monaco, S, Mannino, M, Terruso, V, Muto, M, Guarnieri, G, Andreone, V, Dui, G, Ticca, A, Salmaggi, A, Iannucci, G, Pinna, V, Di Clemente, L, Perini, F, De Boni, A, De Luca, C, De Giorgi, F, Corraine, S, Enne, P, Ganau, C, Piras, V., Gasparotti R., and Magni E (ORCID:0000-0002-2235-2280)

Abstract

Background and Purpose - As a reliable scoring system to detect the risk of symptomatic intracerebral hemorrhage after thrombectomy for ischemic stroke is not yet available, we developed a nomogram for predicting symptomatic intracerebral hemorrhage in patients with large vessel occlusion in the anterior circulation who received bridging of thrombectomy with intravenous thrombolysis (training set), and to validate the model by using a cohort of patients treated with direct thrombectomy (test set). Methods - We conducted a cohort study on prospectively collected data from 3714 patients enrolled in the IER (Italian Registry of Endovascular Stroke Treatment in Acute Stroke). Symptomatic intracerebral hemorrhage was defined as any type of intracerebral hemorrhage with increase of ≥4 National Institutes of Health Stroke Scale score points from baseline ≤24 hours or death. Based on multivariate logistic models, the nomogram was generated. We assessed the discriminative performance by using the area under the receiver operating characteristic curve. Results - National Institutes of Health Stroke Scale score, onset-to-end procedure time, age, unsuccessful recanalization, and Careggi collateral score composed the IER-SICH nomogram. After removing Careggi collateral score from the first model, a second model including Alberta Stroke Program Early CT Score was developed. The area under the receiver operating characteristic curve of the IER-SICH nomogram was 0.778 in the training set (n=492) and 0.709 in the test set (n=399). The area under the receiver operating characteristic curve of the second model was 0.733 in the training set (n=988) and 0.685 in the test set (n=779). Conclusions - The IER-SICH nomogram is the first model developed and validated for predicting symptomatic intracerebral hemorrhage after thrombectomy. It may provide indications on early identification of patients for more or less postprocedural intensive management.

Published

2019

30. Activation of blood coagulation in two prototypic autoimmune skin diseases: A possible link with thrombotic risk

Author

Cugno, M, Tedeschi, A, Borghi, A, Bucciarelli, P, Asero, R, Venegoni, L, Griffini, S, Grovetti, E, Berti, E, Marzano, A, BERTI, EMILIO, Marzano, A., Cugno, M, Tedeschi, A, Borghi, A, Bucciarelli, P, Asero, R, Venegoni, L, Griffini, S, Grovetti, E, Berti, E, Marzano, A, BERTI, EMILIO, and Marzano, A.

Abstract

Coagulation activation has been demonstrated in two prototypic autoimmune skin diseases, chronic autoimmune urticaria and bullous pemphigoid, but only the latter is associated with increased thrombotic risk. Two markers of coagulation activation (prothrombin fragment F1+2 and fibrin fragment D-dimer) were measured by immunoenzymatic methods in plasma samples from 30 patients with active chronic autoimmune urticaria, positive for autologous serum skin test, 30 patients with active bullous pemphigoid and 30 healthy subjects. In skin biopsies, tissue factor expression was evaluated by both immunohistochemistry and in situ hybridization. F1+2 and D-dimer levels were higher in active chronic autoimmune urticaria (276.5±89.8 pmol/L and 5.56±4.40 nmol/L, respectively) than in controls (145.2±38.0 pmol/L and 1.06±0.25 nmol/L; P=0.029 and P=0.011) and were much higher in active bullous pemphigoid (691.7±318.7 pmol/L and 15.24±9.09 nmol/L, respectively) (P<0.0001). Tissue factor positivity was evident in skin biopsies of both disorders with higher intensity in bullous pemphigoid. F1+2 and D-dimer, during remission, were markedly reduced in both disorders. These findings support the involvement of coagulation activation in the pathophysiology of both diseases. The strong systemic activation of coagulation in bullous pemphigoid may contribute to increase the thrombotic risk and provides the rationale for clinical trials on anticoagulant treatments in this disease.

Published

2015

31. Microencapsulation of a UV-responsive photochromic dye by means of novel uv-screening polyurea-based shells for smart coating applications

Author

DI CREDICO, B, Griffini, G, Levi, M, Turri, S, DI CREDICO, BARBARA, Turri, S., DI CREDICO, B, Griffini, G, Levi, M, Turri, S, DI CREDICO, BARBARA, and Turri, S.

Abstract

This article describes the synthesis, characterization, and application of new UV-absorbing microcapsules encapsulating a UV-responsive photochromic dye for application in the damage-sensing field. Microcapsules filled with a photochromic spiropyran, dissolved in sunflower oil as core material, were synthesized by reacting a TDI-based polyisocyanate prepolymer with a benzophenone-based amine to obtain robust UV-absorbing polyurea shells. The newly synthesized UV-screening microcapsules were embedded into a photoresist to realize a new mechanoresponsive polymer. After scratching the coating, the UV-screening microcapsules break and the UV-sensitive core material is released and diffuses into the polymer matrix. Upon exposure to UV-A light, a rapid color change in the region where the damage was made is observed, because of the photoinduced transition of spiropyran to the plane merocyanine form. The novelty of the approach presented in this work lies in the possibility to convert any type of conventional polymeric coating into a UV-light-sensitive mechanoresponsive smart coating by simple addition of our new UV-screening microcapsules. © 2013 American Chemical Society.

Published

2013

32. How does one do a Practice-Based PhD in Filmmaking?

Author

Anderson, L, Tobin, A, Edições Cine-Clube de Avanca, Hernandez, A, Griffini, A, Branco Oliveira, A, Lemos, A, Costa Valente, A, Pita, AP, Anderson, L, Tobin, A, Edições Cine-Clube de Avanca, Hernandez, A, Griffini, A, Branco Oliveira, A, Lemos, A, Costa Valente, A, and Pita, AP

Abstract

978-989-96858-2-6, This paper seeks to explore the issues raised by the process of engaging in a practice-based PhD in Filmmaking. As a sole practitioner the screenwriting doctoral student is able to explore her practice through the development of a screenplay, but what of the potential doctoral students who may wish to explore their specialist and professional filmmaking practices but who are unable to operate as sole practitioners, because of the collaborative requirements of the professional filmmaking model. Using the experience of the screenwriting doctoral investigation, and particularly the exploration of the relationship between methodology, exegesis and the creative artefact, we explore a potential model that would enable all filmmaking specialists to engage in doctoral research. Art students engaging in practice-based doctoral research do so in an environment formed by Government requirements that demand cultural, environmental and economic impacts as well as a methodology that to a large extent is formed by social science measures of value. Using this framework as a starting point we attempted to identify a suitable model that would enable filmmakers to undertake practice-based doctoral research.

Published

2012

33. How does one do a Practice-Based PhD in Filmmaking?

Author

Anderson, L, Tobin, A, Edições Cine-Clube de Avanca, Hernandez, A, Griffini, A, Branco Oliveira, A, Lemos, A, Costa Valente, A, Pita, AP, Anderson, L, Tobin, A, Edições Cine-Clube de Avanca, Hernandez, A, Griffini, A, Branco Oliveira, A, Lemos, A, Costa Valente, A, and Pita, AP

Abstract

978-989-96858-2-6, This paper seeks to explore the issues raised by the process of engaging in a practice-based PhD in Filmmaking. As a sole practitioner the screenwriting doctoral student is able to explore her practice through the development of a screenplay, but what of the potential doctoral students who may wish to explore their specialist and professional filmmaking practices but who are unable to operate as sole practitioners, because of the collaborative requirements of the professional filmmaking model. Using the experience of the screenwriting doctoral investigation, and particularly the exploration of the relationship between methodology, exegesis and the creative artefact, we explore a potential model that would enable all filmmaking specialists to engage in doctoral research. Art students engaging in practice-based doctoral research do so in an environment formed by Government requirements that demand cultural, environmental and economic impacts as well as a methodology that to a large extent is formed by social science measures of value. Using this framework as a starting point we attempted to identify a suitable model that would enable filmmakers to undertake practice-based doctoral research.

Published

2012

34. How does one do a Practice-Based PhD in Filmmaking?

Author

Anderson, L, Tobin, A, Edições Cine-Clube de Avanca, Hernandez, A, Griffini, A, Branco Oliveira, A, Lemos, A, Costa Valente, A, Pita, AP, Anderson, L, Tobin, A, Edições Cine-Clube de Avanca, Hernandez, A, Griffini, A, Branco Oliveira, A, Lemos, A, Costa Valente, A, and Pita, AP

Abstract

978-989-96858-2-6, This paper seeks to explore the issues raised by the process of engaging in a practice-based PhD in Filmmaking. As a sole practitioner the screenwriting doctoral student is able to explore her practice through the development of a screenplay, but what of the potential doctoral students who may wish to explore their specialist and professional filmmaking practices but who are unable to operate as sole practitioners, because of the collaborative requirements of the professional filmmaking model. Using the experience of the screenwriting doctoral investigation, and particularly the exploration of the relationship between methodology, exegesis and the creative artefact, we explore a potential model that would enable all filmmaking specialists to engage in doctoral research. Art students engaging in practice-based doctoral research do so in an environment formed by Government requirements that demand cultural, environmental and economic impacts as well as a methodology that to a large extent is formed by social science measures of value. Using this framework as a starting point we attempted to identify a suitable model that would enable filmmakers to undertake practice-based doctoral research.

Published

2012

35. How does one do a Practice-Based PhD in Filmmaking?

Author

Anderson, L, Tobin, A, Edições Cine-Clube de Avanca, Hernandez, A, Griffini, A, Branco Oliveira, A, Lemos, A, Costa Valente, A, Pita, AP, Anderson, L, Tobin, A, Edições Cine-Clube de Avanca, Hernandez, A, Griffini, A, Branco Oliveira, A, Lemos, A, Costa Valente, A, and Pita, AP

Abstract

978-989-96858-2-6, This paper seeks to explore the issues raised by the process of engaging in a practice-based PhD in Filmmaking. As a sole practitioner the screenwriting doctoral student is able to explore her practice through the development of a screenplay, but what of the potential doctoral students who may wish to explore their specialist and professional filmmaking practices but who are unable to operate as sole practitioners, because of the collaborative requirements of the professional filmmaking model. Using the experience of the screenwriting doctoral investigation, and particularly the exploration of the relationship between methodology, exegesis and the creative artefact, we explore a potential model that would enable all filmmaking specialists to engage in doctoral research. Art students engaging in practice-based doctoral research do so in an environment formed by Government requirements that demand cultural, environmental and economic impacts as well as a methodology that to a large extent is formed by social science measures of value. Using this framework as a starting point we attempted to identify a suitable model that would enable filmmakers to undertake practice-based doctoral research.

Published

2012

36. How does one do a Practice-Based PhD in Filmmaking?

Author

Anderson, L, Tobin, A, Edições Cine-Clube de Avanca, Hernandez, A, Griffini, A, Branco Oliveira, A, Lemos, A, Costa Valente, A, Pita, AP, Anderson, L, Tobin, A, Edições Cine-Clube de Avanca, Hernandez, A, Griffini, A, Branco Oliveira, A, Lemos, A, Costa Valente, A, and Pita, AP

Abstract

978-989-96858-2-6, This paper seeks to explore the issues raised by the process of engaging in a practice-based PhD in Filmmaking. As a sole practitioner the screenwriting doctoral student is able to explore her practice through the development of a screenplay, but what of the potential doctoral students who may wish to explore their specialist and professional filmmaking practices but who are unable to operate as sole practitioners, because of the collaborative requirements of the professional filmmaking model. Using the experience of the screenwriting doctoral investigation, and particularly the exploration of the relationship between methodology, exegesis and the creative artefact, we explore a potential model that would enable all filmmaking specialists to engage in doctoral research. Art students engaging in practice-based doctoral research do so in an environment formed by Government requirements that demand cultural, environmental and economic impacts as well as a methodology that to a large extent is formed by social science measures of value. Using this framework as a starting point we attempted to identify a suitable model that would enable filmmakers to undertake practice-based doctoral research.

Published

2012

37. How does one do a Practice-Based PhD in Filmmaking?

Author

Hernandez, A, Griffini, A, Branco Oliveira, A, Lemos, A, Costa Valente, A, Pita, AP, et. al, Anderson, L, Tobin, A, Hernandez, A, Griffini, A, Branco Oliveira, A, Lemos, A, Costa Valente, A, Pita, AP, et. al, Anderson, L, and Tobin, A

Abstract

This paper seeks to explore the issues raised by the process of engaging in a practice-based PhD in Filmmaking. As a sole practitioner the screenwriting doctoral student is able to explore her practice through the development of a screenplay, but what of the potential doctoral students who may wish to explore their specialist and professional filmmaking practices but who are unable to operate as sole practitioners, because of the collaborative requirements of the professional filmmaking model. Using the experience of the screenwriting doctoral investigation, and particularly the exploration of the relationship between methodology, exegesis and the creative artefact, we explore a potential model that would enable all filmmaking specialists to engage in doctoral research. Art students engaging in practice-based doctoral research do so in an environment formed by Government requirements that demand cultural, environmental and economic impacts as well as a methodology that to a large extent is formed by social science measures of value. Using this framework as a starting point we attempted to identify a suitable model that would enable filmmakers to undertake practice-based doctoral research.

Published

2012

38. How does one do a Practice-Based PhD in Filmmaking?

Author

Hernandez, A, Griffini, A, Branco Oliveira, A, Lemos, A, Costa Valente, A, Pita, AP, et. al, Anderson, L, Tobin, A, Hernandez, A, Griffini, A, Branco Oliveira, A, Lemos, A, Costa Valente, A, Pita, AP, et. al, Anderson, L, and Tobin, A

Abstract

This paper seeks to explore the issues raised by the process of engaging in a practice-based PhD in Filmmaking. As a sole practitioner the screenwriting doctoral student is able to explore her practice through the development of a screenplay, but what of the potential doctoral students who may wish to explore their specialist and professional filmmaking practices but who are unable to operate as sole practitioners, because of the collaborative requirements of the professional filmmaking model. Using the experience of the screenwriting doctoral investigation, and particularly the exploration of the relationship between methodology, exegesis and the creative artefact, we explore a potential model that would enable all filmmaking specialists to engage in doctoral research. Art students engaging in practice-based doctoral research do so in an environment formed by Government requirements that demand cultural, environmental and economic impacts as well as a methodology that to a large extent is formed by social science measures of value. Using this framework as a starting point we attempted to identify a suitable model that would enable filmmakers to undertake practice-based doctoral research.

Published

2012

39. Palazzo dell'Arengario

Author

Portaluppi, Piero 1888-1967; Muzio, Giovanni 1893-1982; Magistretti, Pier Giulio 1891-1945; Griffini, Enrico Agostino 1887-1952, Portaluppi, Piero 1888-1967; Muzio, Giovanni 1893-1982; Magistretti, Pier Giulio 1891-1945; Griffini, Enrico Agostino 1887-1952, Portaluppi, Piero 1888-1967; Muzio, Giovanni 1893-1982; Magistretti, Pier Giulio 1891-1945; Griffini, Enrico Agostino 1887-1952, and Portaluppi, Piero 1888-1967; Muzio, Giovanni 1893-1982; Magistretti, Pier Giulio 1891-1945; Griffini, Enrico Agostino 1887-1952

Abstract

East flank, http://name.umdl.umich.edu/IC-UMMU-X-17-00654%5D17_00654, https://quod.lib.umich.edu/cgi/i/image/api/thumb/ummu/17-00654/17_00654/!250,250, The University of Michigan Library provides access to these materials for educational and research purposes. These materials may be protected by copyright. If you decide to use any of these materials, you are responsible for making your own legal assessment and securing any necessary permission. If you have questions about the collection, please contact the Library Information Technology.; Mary McAuliffe, https://www.lib.umich.edu/about-us/policies/copyright-policy

Published

1936

40. Palazzo dell'Arengario

Author

Portaluppi, Piero 1888-1967; Muzio, Giovanni 1893-1982; Magistretti, Pier Giulio 1891-1945; Griffini, Enrico Agostino 1887-1952, Portaluppi, Piero 1888-1967; Muzio, Giovanni 1893-1982; Magistretti, Pier Giulio 1891-1945; Griffini, Enrico Agostino 1887-1952, Portaluppi, Piero 1888-1967; Muzio, Giovanni 1893-1982; Magistretti, Pier Giulio 1891-1945; Griffini, Enrico Agostino 1887-1952, and Portaluppi, Piero 1888-1967; Muzio, Giovanni 1893-1982; Magistretti, Pier Giulio 1891-1945; Griffini, Enrico Agostino 1887-1952

Abstract

Dual buildings, from northeast by Duomo, http://name.umdl.umich.edu/IC-UMMU-X-17-00653%5D17_00653, https://quod.lib.umich.edu/cgi/i/image/api/thumb/ummu/17-00653/17_00653/!250,250, The University of Michigan Library provides access to these materials for educational and research purposes. These materials may be protected by copyright. If you decide to use any of these materials, you are responsible for making your own legal assessment and securing any necessary permission. If you have questions about the collection, please contact the Library Information Technology.; Mary McAuliffe, https://www.lib.umich.edu/about-us/policies/copyright-policy

Published

1936

41. Palazzo dell'Arengario

Author

Portaluppi, Piero 1888-1967; Muzio, Giovanni 1893-1982; Magistretti, Pier Giulio 1891-1945; Griffini, Enrico Agostino 1887-1952, Portaluppi, Piero 1888-1967; Muzio, Giovanni 1893-1982; Magistretti, Pier Giulio 1891-1945; Griffini, Enrico Agostino 1887-1952, Portaluppi, Piero 1888-1967; Muzio, Giovanni 1893-1982; Magistretti, Pier Giulio 1891-1945; Griffini, Enrico Agostino 1887-1952, and Portaluppi, Piero 1888-1967; Muzio, Giovanni 1893-1982; Magistretti, Pier Giulio 1891-1945; Griffini, Enrico Agostino 1887-1952

Abstract

East flank, http://name.umdl.umich.edu/IC-UMMU-X-17-00655%5D17_00655, https://quod.lib.umich.edu/cgi/i/image/api/thumb/ummu/17-00655/17_00655/!250,250, The University of Michigan Library provides access to these materials for educational and research purposes. These materials may be protected by copyright. If you decide to use any of these materials, you are responsible for making your own legal assessment and securing any necessary permission. If you have questions about the collection, please contact the Library Information Technology.; Mary McAuliffe, https://www.lib.umich.edu/about-us/policies/copyright-policy

Published

1936

42. Palazzo dell'Arengario

Author

Portaluppi, Piero 1888-1967; Muzio, Giovanni 1893-1982; Magistretti, Pier Giulio 1891-1945; Griffini, Enrico Agostino 1887-1952, Portaluppi, Piero 1888-1967; Muzio, Giovanni 1893-1982; Magistretti, Pier Giulio 1891-1945; Griffini, Enrico Agostino 1887-1952, Portaluppi, Piero 1888-1967; Muzio, Giovanni 1893-1982; Magistretti, Pier Giulio 1891-1945; Griffini, Enrico Agostino 1887-1952, and Portaluppi, Piero 1888-1967; Muzio, Giovanni 1893-1982; Magistretti, Pier Giulio 1891-1945; Griffini, Enrico Agostino 1887-1952

Abstract

East flank, http://name.umdl.umich.edu/IC-UMMU-X-17-00655%5D17_00655, https://quod.lib.umich.edu/cgi/i/image/api/thumb/ummu/17-00655/17_00655/!250,250, The University of Michigan Library provides access to these materials for educational and research purposes. These materials may be protected by copyright. If you decide to use any of these materials, you are responsible for making your own legal assessment and securing any necessary permission. If you have questions about the collection, please contact the Library Information Technology.; Mary McAuliffe, https://www.lib.umich.edu/about-us/policies/copyright-policy

Published

1936

43. Palazzo dell'Arengario

Author

Portaluppi, Piero 1888-1967; Muzio, Giovanni 1893-1982; Magistretti, Pier Giulio 1891-1945; Griffini, Enrico Agostino 1887-1952, Portaluppi, Piero 1888-1967; Muzio, Giovanni 1893-1982; Magistretti, Pier Giulio 1891-1945; Griffini, Enrico Agostino 1887-1952, Portaluppi, Piero 1888-1967; Muzio, Giovanni 1893-1982; Magistretti, Pier Giulio 1891-1945; Griffini, Enrico Agostino 1887-1952, and Portaluppi, Piero 1888-1967; Muzio, Giovanni 1893-1982; Magistretti, Pier Giulio 1891-1945; Griffini, Enrico Agostino 1887-1952

Abstract

Dual buildings, from northeast by Duomo, http://name.umdl.umich.edu/IC-UMMU-X-17-00653%5D17_00653, https://quod.lib.umich.edu/cgi/i/image/api/thumb/ummu/17-00653/17_00653/!250,250, The University of Michigan Library provides access to these materials for educational and research purposes. These materials may be protected by copyright. If you decide to use any of these materials, you are responsible for making your own legal assessment and securing any necessary permission. If you have questions about the collection, please contact the Library Information Technology.; Mary McAuliffe, https://www.lib.umich.edu/about-us/policies/copyright-policy

Published

1936

44. Palazzo dell'Arengario

Author

Portaluppi, Piero 1888-1967; Muzio, Giovanni 1893-1982; Magistretti, Pier Giulio 1891-1945; Griffini, Enrico Agostino 1887-1952, Portaluppi, Piero 1888-1967; Muzio, Giovanni 1893-1982; Magistretti, Pier Giulio 1891-1945; Griffini, Enrico Agostino 1887-1952, Portaluppi, Piero 1888-1967; Muzio, Giovanni 1893-1982; Magistretti, Pier Giulio 1891-1945; Griffini, Enrico Agostino 1887-1952, and Portaluppi, Piero 1888-1967; Muzio, Giovanni 1893-1982; Magistretti, Pier Giulio 1891-1945; Griffini, Enrico Agostino 1887-1952

Abstract

East flank, http://name.umdl.umich.edu/IC-UMMU-X-17-00654%5D17_00654, https://quod.lib.umich.edu/cgi/i/image/api/thumb/ummu/17-00654/17_00654/!250,250, The University of Michigan Library provides access to these materials for educational and research purposes. These materials may be protected by copyright. If you decide to use any of these materials, you are responsible for making your own legal assessment and securing any necessary permission. If you have questions about the collection, please contact the Library Information Technology.; Mary McAuliffe, https://www.lib.umich.edu/about-us/policies/copyright-policy

Published

1936

45. An ideological divide? Political parties' discourse in Italy's migration cooperation with Libya and Albania

Author

Griffini, Marianna, Rosina, Matilde, Griffini, Marianna, and Rosina, Matilde

Abstract

Italy’s migration agreements with Libya in 2017 and Albania in 2023 serve as crucial cases for investigating how political parties in Europe position themselves on immigration policy. By comparing parties across the Italian political spectrum, this research assesses whether they have articulated distinct stances on the externalisation of migration in the two selected cases. A qualitative analysis of parliamentary debates reveals two dominant logics in party discourse: a security logic and a rights-oriented logic. These two logics can cut across party lines, particularly in times of crisis, with frequent references to the European Union (EU) as both an arena for Italy’s influence and a source of legitimacy.

46. Della Vita Di Monsignor Gio: Maria Percoto, Della Congregazione Di S. Paolo, Missionario Ne' Regni Di Ava E Di Pegu', Vicario Apostolico E Vescovo Massulense; Libri Tre

Author

Griffini, Michelangelo and Griffini, Michelangelo

47. Della Vita Di Monsignor Gio: Maria Percoto, Della Congregazione Di S. Paolo, Missionario Ne' Regni Di Ava E Di Pegu', Vicario Apostolico E Vescovo Massulense; Libri Tre

Author

Griffini, Michelangelo and Griffini, Michelangelo

48. Selective blockade of mGlu5 metabotropic glutamate receptors is protective against acetaminophen hepatotoxicity in mice

Author

Storto, Marianna, Ngomba, Richard T., Battaglia, Giuseppe, Freitas, Isabel, Griffini, Patrizia, Richelmi, Plinio, Nicoletti, Ferdinando, Vairetti, Mariapia, Storto, Marianna, Ngomba, Richard T., Battaglia, Giuseppe, Freitas, Isabel, Griffini, Patrizia, Richelmi, Plinio, Nicoletti, Ferdinando, and Vairetti, Mariapia

Abstract

Background/Aims: mGlu5 metabotropic glutamate receptor antagonists protect rat hepatocytes against hypoxic death. Here, we have examined whether mGlu5 receptor antagonists are protective against liver damage induced by oxidative stress. Methods: Toxicity of isolated hepatocytes was induced by tert-butylhydroperoxide (t-BuOOH) after pretreatment with the mGlu5 receptor antagonists, MPEP, SIB-1757 and SIB-1893. The effect of these drugs was also examined in mice challenged with toxic doses of acetaminophen. Results: Addition of tBuOOH (0.5 mM) to isolated hepatocytes induced cell death (70±5% at 3 h). Addition of MPEP or SIB-1893 to hepatocytes reduced both the production of reactive oxygen species (ROS) and cell toxicity induced by t-BuOOH (tBuOOH=70±5%; tBuOOH+MPEP=57±6%; tBuOOH+SIB-1893=40±4%). In mice, a single injection of acetaminophen (300 mg/kg, i.p.) induced centrilobular liver necrosis, which was detectable after 24 h. MPEP (20 mg/kg, i.p.) substantially reduced liver necrosis and the production of ROS, although it did not affect the conversion of acetaminophen into the toxic metabolite, N-acetylbenzoquinoneimine. MPEP, SIB-1893 and SIB-1757 (all at 20 mg/kg, i.p.) also reduced the increased expression and activity of liver iNOS induced by acetaminophen. Conclusions: We conclude that pharmacological blockade of mGlu5 receptors might represent a novel target for the treatment of drug-induced liver damage.

49. Della Vita Di Monsignor Gio: Maria Percoto, Della Congregazione Di S. Paolo, Missionario Ne' Regni Di Ava E Di Pegu', Vicario Apostolico E Vescovo Massulense; Libri Tre

Author

Griffini, Michelangelo and Griffini, Michelangelo

50. Della Vita Di Monsignor Gio: Maria Percoto, Della Congregazione Di S. Paolo, Missionario Ne' Regni Di Ava E Di Pegu', Vicario Apostolico E Vescovo Massulense; Libri Tre

Author

Griffini, Michelangelo and Griffini, Michelangelo