Publications

2021 2020 2019 2018 2017 2016  
2021



131 Light-Controlled Regioselective Synthesis of Fullerene Bis-Adducts
Đorđević, L; Casimiro, L; Demitri, N; Baroncini, M; Silvi, S; Arcudi, F; Credi, A; Prato, M. (Angewandte Chemie International Edition, 2021, 60, 313).
130 Suspended graphene arrays for gas sensing applications
Gupta, RK; Alqahtani, F; Dawood, OM; Carini, M; Criado, A; Prato, M; Garlapati, SK; Jones, G; Sexton, J; Persaud, KC; Dang, C; Monteverde, U; Missous, M; Young, RJ; Boult, S; Dixon, N; Majewski, LA; Migliorato, M. (2D Materials, 2021, 8, 025006).
Top


2020

129 Skin irritation potential of graphene-based materials using a non-animal test
Fusco, L; Garrido, M; Martin, C; Sosa, S; Ponti, C; Centeno, A; Alonso, B; Zurutuza, A; Vazquez, E; Tubaro, A; Prato, M; Pelin, M (Nanoscale, 2020, 12, 610-622). -
128 Ecotoxicological impact of graphene oxide: toxic effects on the model organism Artemia franciscana
Cavion, F; Fusco, L; Sosa, S; Manfrin, C; Alonso, B; Zurutuza, A; Della Loggia, R; Tubaro, A; Prato, M; Pelin, M (Environmental Science-nano, 2020, 7, 3605-3615).
127 Tailored Methodology Based on Vapor Phase Polymerization to Manufacture PEDOT/CNT Scaffolds for Tissue Engineering
Dominguez-Alfaro, A; Alegret, N; Arnaiz, B; González-Domínguez, JM; Martin-Pacheco, A; Cossío, U; Porcarelli, L; Bosi, S; Vázquez, E; Mecerreyes, D; Prato, M. (ACS Biomaterials Science & Engineering, 2020, 6,1269-1278). -
126 Carbon Dots as Nano-Organocatalysts for Synthetic Applications
Rosso, C; Filippini, G; Prato, M (ACS Catalysis, 2020, 10, 8090-8105).
125 Electrochemically controlled cleavage of imine bonds on a graphene platform: towards new electro-responsive hybrids for drug release
Hou, H; Cardo, L; Mancino, D; Arnaiz, B; Criado, A; Prato, M. (Nanoscale, 2020, 12, 23824-23830).
124 Concise, Single-Step Synthesis of Sulfur-Enriched Graphene: Immobilization of Molecular Clusters and Battery Applications
Omachi, H; Inoue, T; Hatao, S; Shinohara, H; Criado, A; Yoshikawa, H; Syrgiannis, Z; Prato, M. (Angewandte Chemie International Edition, 2020, 59, 7836-7841).
123 Banning carbon nanotubes would be scientifically unjustified and damaging to innovation
Heller, DA; Jena, PV; Pasquali, M; Kostarelos, K; Delogu, LG; Meidl, RE; Rotkin, SV; Scheinberg, DA; Schwartz, RE; Terrones, M; Wang, YH; Bianco, A; Boghossian, AA; Cambre, S; Cognet, L; Corrie, SR; Demokritou, P; Giordani, S; Hertel, T; Ignatova, T; Islam, MF; Iverson, NM; Jagota, A; Janas, D; Kono, J; Kruss, S; Landry, MP; Li, Y; Martel, R; Maruyama, S; Naumov, AV; Prato, M; Quinn, SJ; Roxbury, D; Strano, MS; Tour, JM; Weisman, RB; Wenseleers, W; Yudasaka, M (Nature Nanotechnology, 2020, 15, 164-166).
122 Intracerebral Injection of Graphene Oxide Nanosheets Mitigates Microglial Activation Without Inducing Acute Neurotoxicity: A Pilot Comparison to Other Nanomaterials
Portioli, C; Bussy, C; Mazza, M; Lozano, N; Jasim, DA; Prato, M; Bianco, A; Bentivoglio, M; Kostarelos, K (Small, 2020, 16, 2004029).
121 Photoelectrochemical Properties of SnO2 Photoanodes Sensitized by Cationic Perylene-Di-Imide Aggregates for Aqueous HBr Splitting
Benazzi, E; Rettenmaier, K; Berger, T; Caramori, S; Berardi, S; Argazzi, R; Prato, M; Syrgiannis, Z (Journal of Physical Chemistry C, 2020, 124, 1317-1329).
120 Symmetry-Breaking Charge-Transfer Chromophore Interactions Supported by Carbon Nanodots
Cacioppo, M; Scharl, T; Dordevic, L; Cadranel, A; Arcudi, F; Guldi, DM; Prato, M (Angewandte Chemie International Edition, 2020, 59, 12779).
119 Mapping the Surface Groups of Amine-Rich Carbon Dots Enables Covalent Catalysis in Aqueous Media
Filippini, G; Amato, F; Rosso, C; Ragazzon, G; Vega-Peñaloza, A; Companyó, X; Dell’Amico, L; Bonchio, M; Prato, M. (Chem, 2020, 6, 3022-3037).-
118 Light-driven, heterogeneous organocatalysts for C-C bond formation toward valuable perfluoroalkylated intermediates
Filippini, G; Longobardo, F; Forster, L; Criado, A; Di Carmine, G; Nasi, L; D’Agostino, C; Melchionna, M; Fornasiero, P; Prato, M. (Science Advances, 2020, 6).
117 Supramolecular Chiral Discrimination of D-Phenylalanine Amino Acid Based on a Perylene Bisimide Derivative
Bettini, S; Syrgiannis, Z; Ottolini, M; Bonfrate, V; Giancane, G; Valli, L; Prato, M (Frontiers in bioengineering and biotechnology, 2020, 8).
116 Mass spectrometry of carbohydrate-protein interactions on a glycan array conjugated to CVD graphene surfaces
Merino, JP; Serna, S; Criado, A; Centeno, A; Napal, I; Calvo, J; Zurutuza, A; Reichardt, N; Prato, M. (2D Materials, 2020, 7, 024003).
115 Synthesis and applications of amino-functionalized carbon nanomaterials
Garrido, M; Gualandi, L; Di Noja, S; Filippini, G; Bosi, S; Prato, M (Chemical Communications, 2020, 56, 12698-12716).
114 Functional rewiring across spinal injuries via biomimetic nanofiber scaffolds
Usmani, S; Franceschi Biagioni, A; Medelin, M; Scaini, D; Casani, R; Aurand, ER; Padro, D; Egimendia, A; Ramos Cabrer, P; Scarselli, M; De Crescenzi, M; Prato, M; Ballerini, L. (Proceedings of the National Academy of Sciences of the United States of America, 2020, 117, 25212-25218).
113 Into the carbon: A matter of core and shell in advanced electrocatalysis
Melchionna, M; Fornasiero, P; Prato, M (Apl Materials, 2020, 8, 020905).
112 Toward Spontaneous Neuronal Differentiation of SH-SY5Y Cells Using Novel Three-Dimensional Electropolymerized Conductive Scaffolds
Dominguez-Alfaro, A; Alegret, N; Arnaiz, B; Salsamendi, M; Mecerreyes, D; Prato, M. (ACS Applied Materials and Interfaces, 2020, 12, 57330-57342).
111 Water-Mediated ElectroHydrogenation of CO2 at Near-Equilibrium Potential by Carbon Nanotubes/Cerium Dioxide Nanohybrids
Valenti, G; Melchionna, M; Montini, T; Boni, A; Nasi, L; Fonda, E; Criado, A; Zitolo, A; Voci, S; Bertoni, G; Bonchio, M; Fornasiero, P; Paolucci, F; Prato, M. (ACS Applied Energy Materials, 2020, 3, 8509-8518).
110 Graphene, other carbon nanomaterials and the immune system: toward nanoimmunity-by-design
Gazzi, A; Fusco, L; Orecchioni, M; Ferrari, S; Franzoni, G; Yan, JS; Rieckher, M; Peng, GT; Lucherelli, MA; Vacchi, IA; Chau, NDQ; Criado, A; Istif, A; Mancino, D; Dominguez, A; Eckert, H; Vazquez, E; Da Ros, T; Nicolussi, P; Palermo, V; Schumacher, B; Cuniberti, G; Mai, YY; Clementi, C; Pasquali, M; Feng, XL; Kostarelos, K; Yilmazer, A; Bedognetti, D; Fadeel, B; Prato, M; Bianco, A; Delogu, LG (Journal of Physics Materials, 2020, 3, 034009).
109 Synthesis and excited state processes of arrays containing amine-rich carbon dots and unsymmetrical rylene diimides
Dordevic, L; Haines, P; Cacioppo, M; Arcudi, F; Scharl, T; Cadranel, A; Guldi, DM; Prato, M. (Materials Chemistry Frontiers, 2020, 4, 3640-3648).
108 Beyond graphene oxide acidity: Novel insights into graphene related materials effects on the sexual reproduction of seed plants
Candotto Carniel, F; Fortuna, L; Nepi, M; Cai, G; Del Casino, C; Adami, G; Bramini, M; Bosi, S; Flahaut, E; Martín, C; Vázquez, E; Prato, M; Tretiach, M. (Journal of Hazardous Materials, 2020, 393, 122380).
107 Keratinocytes are capable of selectively sensing low amounts of graphene-based materials: Implications for cutaneous applications
Fusco, L; Pelin, M; Mukherjee, S; Keshavan, S; Sosa, S; Martin, C; Gonzalez, V; Vazquez, E; Prato, M; Fadeel, B; Tubaro, A (Carbon, 2020, 159, 598-610).
106 Tailoring the sensing abilities of carbon nanodots obtained from olive solid wastes
Sawalha, S; Silvestri, A; Criado, A; Bettini, S; Prato, M; Valli, L. (Carbon, 2020, 167, 696-708).
105 Novel idebenone analogs block Shcs access to insulin receptor to improve insulin sensitivity
Hui, CK; Tomilov, A; Garcia, C; Jiang, XS; Fash, DM; Khdour, OM; Rosso, C; Filippini, G; Prato, M; Graham, J; Hecht, S; Havel, P; Cortopassi, G (Biomedicine & Pharmacotherapy, 2020, 132, 110823).
104 Improving 2D-organization of fullerene Langmuir-Schafer thin films by interaction with cellulose nanocrystals
Sawalha, S; Milano, F; Guascito, MR; Bettini, S; Giotta, L; Operamolla, A; Da Ros, T; Prato, M; Valli, L (Carbon, 2020, 167, 906-917).
103 Targeting G Protein-Coupled Receptors with Magnetic Carbon Nanotubes: The Case of the A(3)Adenosine Receptor
Pineux, F; Federico, S; Klotz, KN; Kachler, S; Michiels, C; Sturlese, M; Prato, M; Spalluto, G; Moro, S; Bonifazi, D (ChemMedChem, 2020, 15, 1909-1920).
102 Partial Reversibility of the Cytotoxic Effect Induced by Graphene-Based Materials in Skin Keratinocytes
Pelin, M; Lin, HZ; Gazzi, A; Sosa, S; Ponti, C; Ortega, A; Zurutuza, A; Vazquez, E; Prato, M; Tubaro, A; Bianco, A (Nanomaterials, 2020, 10, 1602).
101 Tuning Neuronal Circuit Formation in 3D Polymeric Scaffolds by Introducing Graphene at the Bio/Material Interface
Rauti, R; Secomandi, N; Martin, C; Bosi, S; Severino, FPU; Scaini, D; Prato, M; Vazquez, E; Ballerini, L (Advanced Biosystems, 2020, 4, 1900233).
100 Effects of Few-Layer Graphene on the Sexual Reproduction of Seed Plants: An In Vivo Study withCucurbita pepoL.
Zanelli, D; Carniel, FC; Garrido, M; Fortuna, L; Nepi, M; Cai, GM; Del Casino, C; Vazquez, E; Prato, M; Tretiach, M (Nanomaterials, 2020, 10, 1877).
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2019

99 The Rise of Hydrogen Peroxide as the Main Product by Metal-Free Catalysis in Oxygen Reductions
Melchionna, M; Fornasiero, P; Prato, M (Advanced Materials, 2019, 31, 1802920).
98 Carbon nanodot-based heterostructures for improving the charge separation and the photocurrent generation
Bettini, S; Sawalha, S; Carbone, L; Giancane, G; Prato, M; Valli, L (Nanoscale, 2019, 11, 7414-7423).
97 High-Yield Preparation of Exfoliated 1T-MoS2 with SERS Activity
Er, E; Hou, H; Criado, A; Langer, J; Möller, M; Erk, N; Liz-Marzán, LM; Prato, M. (Chemistry of Materials, 2019, 31, 5725-5734).
96 Singlet oxygen photo-production by perylene bisimide derivative Langmuir-Schaefer films for photodynamic therapy applications
Semeraro, P; Syrgiannis, Z; Bettini, S; Giancane, G; Guerra, F; Fraix, A; Bucci, C; Sortino, S; Prato, M; Valli, L (Journal of Colloid and Interface Science, 2019, 553, 390-401).
95 Carbon Nanostructures in Rotaxane Architectures
Barrejón, M; Mateo-Alonso, A; Prato, M. (European Journal of Organic Chemistry, 2019, 2019, 3371-3383).
94 Hierarchical organization of perylene bisimides and polyoxometalates for photo-assisted water oxidation
Bonchio, M; Syrgiannis, Z; Burian, M; Marino, N; Pizzolato, E; Dirian, K; Rigodanza, F; Volpato, GA; La Ganga, G; Demitri, N; Berardi, S; Amenitsch, H; Guldi, DM; Caramori, S; Bignozzi, CA; Sartorel, A; Prato, M. (Nature Chemistry, 2019, 11, 146-153).
93 Design, Synthesis, and Functionalization Strategies of Tailored Carbon Nanodots
Arcudi, F; Dordevic, L; Prato, M. (Accounts of Chemical Research, 2019, 52, 2070-2079).
92 Controlling Size-Dispersion of Single Walled Carbon Nanotubes by Interaction with Polyoxometalates Armed with a Tryptophan Tweezer
Syrgiannis, Z; Trautwein, G; Calvaresi, M; Modugno, G; Zerbetto, F; Carraro, M; Prato, M; Bonchio, M (European Journal Of Inorganic Chemistry, 2019, 374-379).
91 Highly Performing Iodoperfluoroalkylation of Alkenes Triggered by the Photochemical Activity of Perylene Diimides
Rosso, C; Filippini, G; Cozzi, PG; Gualandi, A; Prato, M (ChemPhotoChem, 2019, 3, 193-197).
90 The reactivity of reduced graphene depends on solvation
Hou, H; Merino, JP; Criado, A; Hirsch, A; Prato, M. (2D Materials, 2019, 6, 025009).
89 Biocompatibility and biodegradability of 2D materials: graphene and beyond
Martin, C; Kostarelos, K; Prato, M; Bianco, A (Chemical Communications, 2019, 55, 5540-5546).
88 Advanced carbon nanomaterials for electrochemiluminescent biosensor applications
Fiorani, A; Merino, JP; Zanut, A; Criado, A; Valenti, G; Prato, M; Paolucci, F. (Current Opinion in Electrochemistry, 2019, 16, 66-74).
87 Preparation, functionalization and characterization of engineered carbon nanodots
Ðorđević, L; Arcudi, F; Prato, M. (Nature protocols, 2019, 14, 2931-2953).
86 Perylene Bisimide Aggregates as Probes for Subnanomolar Discrimination of Aromatic Biogenic Amines
Bettini, S; Syrgiannis, Z; Pagano, R; Dordevic, L; Salvatore, L; Prato, M; Giancane, G; Valli, L (ACS Applied Materials and Interfaces, 2019, 11, 17079-17089).
85 Visible-Light-Mediated lodoperfluoroalkylation of Alkenes in Flow and Its Application to the Synthesis of a Key Fulvestrant Intermediate
Rosso, C; Williams, JD; Filippini, G; Prato, M; Kappe, CO. (Organic Letters, 2019, 21, 5341-5345).
84 Gold Nanoparticle-Functionalized Reverse Thermal Gel for Tissue Engineering Applications
Pena, B; Maldonado, M; Bonham, AJ; Aguado, BA; Dominguez-Alfaro, A; Laughter, M; Rowland, TJ; Bardill, J; Farnsworth, NL; Ramon, NA; Taylor, MRG; Anseth, KS; Prato, M; Shandas, R; McKinsey, TA; Park, D; Mestroni, L (ACS Applied Materials and Interfaces, 2019, 11, 18671-18680).
83 Use of Nitrogen-Doped Carbon Nanodots for the Photocatalytic Fluoroalkylation of Organic Compounds
Rosso, C; Filippini, G; Prato, M (Chemistry - A European Journal, 2019, 25, 16032-16036).
82 Selective Electrocatalytic H2O2 Generation by Cobalt@N-Doped Graphitic Carbon Core-Shell Nanohybrids
Lenarda, A; Bevilacqua, M; Tavagnacco, C; Nasi, L; Criado, A; Vizza, F; Melchionna, M; Prato, M; Fornasiero, P. (ChemSusChem, 2019, 12, 1664-1672).
81 A Recyclable Chiral 2-(Triphenylmethyl)pyrrolidine Organocatalyst Anchored to [60]Fullerene
Rosso, C; Emma, MG; Martinelli, A; Lombardo, M; Quintavalla, A; Trombini, C; Syrgiannis, Z; Prato, M (Advanced synthesis & catalysis, 2019, 361, 2936-2944).
80 Properties and behavior of carbon nanomaterials when interfacing neuronal cells: How far have we come?
Rauti, R; Musto, M; Bosi, S; Prato, M; Ballerini, L (Carbon, 2019, 143, 430-446).
79 Chemically Cross-Linked Carbon Nanotube Films Engineered to Control Neuronal Signaling
Barrejón, M; Rauti, R; Ballerini, L; Prato, M. (ACS Nano, 2019, 13, 8879-8889).
78 Ex-solution synthesis of sub-5 nm FeOx Nanoparticles on Mesoporous Hollow N,O-Doped Carbon Nanoshells for Electrocatalytic Oxygen Reduction
Kralj, S; LONGOBARDO, F; Iglesias, D; Bevilacqua, M; Tavagnacco, C; Criado, A; Delgado, JJ; Makovec, D; Marchesan, S; Melchionna, M; Prato, M; Fornasiero, P. (ACS Applied Nano Materials, 2019, 2, 6092-6097).
77 Graphene-based materials do not impair physiology, gene expression and growth dynamics of the aeroterrestrial microalga Trebouxia gelatinosa
Banchi, E; Carniel, FC; Montagner, A; Bosi, S; Bramini, M; Crosera, M; Leon, V; Martin, C; Pallavicini, A; Vazquez, E; Prato, M; Tretiach, M (Nanotoxicology, 2019, 13, 492-509).
76 Graphene Oxide Flakes Tune Excitatory Neurotransmission in Vivo by Targeting Hippocampal Synapses
Rauti, R; Medelin, M; Newman, L; Vranic, S; Reina, G; Bianco, A; Prato, M; Kostarelos, K; Ballerini, L (Nano Letters, 2019, 19, 2858-2870).
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2018

75 Graphene oxide impairs the pollen performance of Nicotiana tabacum and Corylus avellana suggesting potential negative effects on the sexual reproduction of seed plants
Candotto Carniel, F; Gorelli, D; Flahaut, E; Fortuna, L; Del Casino, C; Cai, G; Nepi, M; Prato, M; Tretiach, M. (Environmental Science-nano, 2018, 5, 1608-1617).
74 Customizing the Electrochemical Properties of Carbon Nanodots by Using Quinones in Bottom-Up Synthesis
Rigodanza, F; Đorđević, L; Arcudi, F; Prato, M. (Angewandte Chemie International Edition, 2018, 57, 5062-5067).
73 Single-layer graphene modulates neuronal communication and augments membrane ion currents
Pampaloni, NP; Lottner, M; Giugliano, M; Matruglio, A; D’Amico, F; Prato, M; Garrido, JA; Ballerini, L; Scaini, D. (Nature Nanotechnology, 2018, 13, 755-764).
72 In vitro pro-inflammatory effects of graphene and graphene oxide on human skin keratinocytes and monocytes
Fusco, L; Pelin, M; Sosa, S; Martin, C; Vazquez, E; Mukherjee, S; Fadeel, B; Prato, M; Tubaro, A (Basic & Clinical Pharmacology & Toxicology, 2018, 123, 80-80).
71 Design principles of chiral carbon nanodots help convey chirality from molecular to nanoscale level
Ðorđević, L; Arcudi, F; D’Urso, A; Cacioppo, M; Micali, N; Bürgi, T; Purrello, R; Prato, M. (Nature Communications, 2018, 9, 3442).
70 The idebenone metabolite QS10 restores electron transfer in complex I and coenzyme Q defects
Giorgio, V; Schiavone, M; Galber, C; Carini, M; Da Ros, T; Petronilli, V; Argenton, F; Carelli, V; Acosta Lopez, MJ; Salviati, L; Prato, M; Bernardi, P. (Biochimica Et Biophysica Acta-bioenergetics, 2018, 1859, 901-908).
69 N-Doped Graphitized Carbon Nanohorns as a Forefront Electrocatalyst in Highly Selective O-2 Reduction to H2O2
Iglesias, D; Giuliani, A; Melchionna, M; Marchesan, S; Criado, A; Nasi, L; Bevilacqua, M; Tavagnacco, C; Vizza, F; Prato, M; Fornasiero, P. (Chem, 2018, 4, 106-123)
68 Nanostructures to Engineer 3D Neural-Interfaces: Directing Axonal Navigation toward Successful Bridging of Spinal Segments
Aurand, ER; Usmani, S; Medelin, M; Scaini, D; Bosi, S; Rosselli, FB; Donato, S; Tromba, G; Prato, M; Ballerini, L. (Advanced Functional Materials, 2018, 28, 1700550).
67 Microwave-induced covalent functionalization of few-layer graphene with arynes under solvent-free conditions
Sulleiro, MV; Quiroga, S; Peña, D; Pérez, D; Guitián, E; Criado, A; Prato, M. (Chemical Communications, 2018, 54, 2086-2089).
66 Production of ready-to-use few-layer graphene in aqueous suspensions
González-Domínguez, JM; León, V; Lucío, MI; Prato, M; Vázquez, E. (Nature protocols, 2018, 13, 495-506).
65 Gas-Phase Functionalization of Macroscopic Carbon Nanotube Fiber Assemblies: Reaction Control, Electrochemical Properties, and Use for Flexible Supercapacitors
Iglesias, D; Senokos, E; Alemán, B; Cabana, L; Navío, C; Marcilla, R; Prato, M; Vilatela, JJ; Marchesan, S. (ACS Applied Materials and Interfaces, 2018, 10, 5760-5770).
64 Three-Dimensional Conductive Scaffolds as Neural Prostheses Based on Carbon Nanotubes and Polypyrrole
Alegret, N; Dominguez-Alfaro, A; Gonzalez-Dominguez, JM; Arnaiz, B; Cossío, U; Bosi, S; Vázquez, E; Ramos-Cabrer, P; Mecerreyes, D; Prato, M. (ACS Applied Materials and Interfaces, 2018, 10, 43904-43914).
63 Magnetic shepherding of nanocatalysts through hierarchically-assembled Fe-filled CNTs hybrids
Melchionna, M; Beltram, A; Stopin, A; Montini, T; Lodge, RW; Khlobystov, AN; Bonifazi, D; Prato, M; Fornasiero, P. (Applied catalysis b-environmental, 2018, 227, 356-365).
62 Nanostructured carbon supported Pd-ceria as anode catalysts for anion exchange membrane fuel cells fed with polyalcohols
Lenarda, A; Bellini, M; Marchionni, A; Miller, H; Montini, T; Melchionna, M; Vizza, F; Prato, M; Fornasiero, P. (Inorganica Chimica Acta, 2018, 470, 213-220).
61 Screening Supramolecular Interactions between Carbon Nanodots and Porphyrins
Cadranel, A; Strauss, V; Margraf, JT; Winterfeld, KA; Vogl, C; Đorđević, L; Arcudi, F; Hoelzel, H; Jux, N; Prato, M; Guldi, DM. (Journal of the American Chemical Society, 2018, 140, 904-907).
60 Nitrogen-Doped Carbon Nanodots-lonogels: Preparation, Characterization, and Radical Scavenging Activity
Rizzo, C; Arcudi, F; Đorđević, L; Dintcheva, NT; Noto, R; D’Anna, F; Prato, M. (ACS Nano, 2018, 12, 1296-1305).
59 Tuning the Carbon Nanotube Selectivity: Optimizing Reduction Potentials and Distortion Angles in Perylenediimides
Münich, PW; Schierl, C; Dirian, K; Volland, M; Bauroth, S; Wibmer, L; Syrgiannis, Z; Clark, T; Prato, M; Guldi, DM. (Journal of the American Chemical Society, 2018, 140, 5427-5433).
58 Oxidized Nanocarbons-Tripeptide Supramolecular Hydrogels: Shape Matters!
Iglesias, D; Melle-Franco, M; Kurbasic, M; Melchionna, M; Abrami, M; Grassi, M; Prato, M; Marchesan, S. (ACS Nano, 2018, 12, 5530-5538).
57 Inter-Backbone Charge Transfer as Prerequisite for Long-Range Conductivity in Perylene Bisimide Hydrogels
Burian, M; Rigodanza, F; Demitri, N; D̵ord̵ević, L; Marchesan, S; Steinhartova, T; Letofsky-Papst, I; Khalakhan, I; Mourad, E; Freunberger, SA; Amenitsch, H; Prato, M; Syrgiannis, Z. (ACS Nano, 2018, 12, 5800-5806).
56 Safety Assessment of Graphene-Based Materials: Focus on Human Health and the Environment
Fadeel, B; Bussy, C; Merino, S; Vazquez, E; Flahaut, E; Mouchet, F; Evariste, L; Gauthier, L; Koivisto, AJ; Vogel, U; Martín, C; Delogu, LG; Buerki-Thurnherr, T; Wick, P; Beloin-Saint-Pierre, D; Hischier, R; Pelin, M; Candotto Carniel, F; Tretiach, M; Cesca, F; Benfenati, F; Scaini, D; Ballerini, L; Kostarelos, K; Prato, M; Bianco, A. (ACS Nano, 2018, 12, 10582-10620).
55 A water-soluble, bay-functionalized perylenediimide derivative - correlating aggregation and excited state dynamics
Dirian, K; Bauroth, S; Roth, A; Syrgiannis, Z; Rigodanza, F; Burian, M; Amenitsch, H; Sharapa, DI; Prato, M; Clark, T; Guldi, DM. (Nanoscale, 2018, 10, 2317-2326).
54 Graphene and graphene oxide induce ROS production in human HaCaT skin keratinocytes: the role of xanthine oxidase and NADH dehydrogenase
Pelin, M; Fusco, L; Martin, C; Sosa, S; Frontinan-Rubio, J; Gonzalez-Dominguez, JM; Duran-Prado, M; Vazquez, E; Prato, M; Tubaro, A (Nanoscale, 2018, 10, 11820-11830).
53 Pd@TiO2/carbon nanohorn electrocatalysts: reversible CO2 hydrogenation to formic acid
Melchionna, M; Bracamonte, MV; Giuliani, A; Nasi, L; Montini, T; Tavagnacco, C; Bonchio, M; Fornasiero, P; Prato, M. (Energy & environmental science, 2018, 11, 1571-1580).
52 Nitrogen-doped carbon nanodots for bioimaging and delivery of paclitaxel
Gomez, IJ; Arnaiz, B; Cacioppo, M; Arcudi, F; Prato, M. (Journal of Materials Chemistry B, 2018, 6, 5540-5548).
51 Occupational exposure to graphene based nanomaterials: risk assessment
Pelin, M; Sosa, S; Prato, M; Tubaro, A. (Nanoscale, 2018, 10, 15894-15903).
50 Metal-free dual-phase full organic carbon nanotubes/g-C3N4 heteroarchitectures for photocatalytic hydrogen production
Christoforidis, KC; Syrgiannis, Z; La Parola, V; Montini, T; Petit, C; Stathatos, E; Godin, R; Durrant, JR; Prato, M; Fornasiero, P (Nano Energy, 2018, 50, 468-478).
49 Sculpting neurotransmission during synaptic development by 2D nanostructured interfaces
Pampaloni, NP; Scaini, D; Perissinotto, F; Bosi, S; Prato, M; Ballerini, L. (Nanomedicine: Nanotechnology, Biology and Medicine, 2018, 14, 2521-2532).
48 Ionic liquids plus microwave irradiation: a general methodology for the retro-functionalization of single-walled carbon nanotubes
Barrejón, M; Syrgiannis, Z; Prato, M. (Nanoscale, 2018, 10, 15782-15787).
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2017

47 Porphyrin Antennas on Carbon Nanodots: Excited State Energy and Electron Transduction
Arcudi, F; Strauss, V; Đorđević, L; Cadranel, A; Guldi, DM; Prato, M. (Angewandte Chemie International Edition, 2017, 56, 12097-12101).
46 Successful Regrowth of Retinal Neurons When Cultured Interfaced to Carbon Nanotube Platforms
Cellot, G; La Monica, S; Scaini, D; Rauti, R; Bosi, S; Prato, M; Gandolfi, S; Ballerini, L. (Journal of Biomedical Nanotechnology, 2017, 13, 559-565).
45 H2O2 sensing enhancement by mutual integration of single walled carbon nanohorns with metal oxide catalysts: The CeO2 case
Bracamonte, MV; Melchionna, M; Giuliani, A; Nasi, L; Tavagnacco, C; Prato, M; Fornasiero, P. (Sensors and Actuators B: Chemical, 2017, 239, 923-932).
44 Differential cytotoxic effects of graphene and graphene oxide on skin keratinocytes
Pelin, M; Fusco, L; León, V; Martín, C; Criado, A; Sosa, S; Vázquez, E; Tubaro, A; Prato, M. (Scientific Reports, 2017, 7, 40572).
43 Graphene Improves the Biocompatibility of Polyacrylamide Hydrogels: 3D Polymeric Scaffolds for Neuronal Growth
Martín, C; Merino, S; González-Domínguez, JM; Rauti, R; Ballerini, L; Prato, M; Vázquez, E. (Scientific Reports, 2017, 7, 10942).
42 Structural and optical properties of a perylene bisimide in aqueous media
Burian, M; Rigodanza, F; Amenitsch, H; Almásy, L; Khalakhan, I; Syrgiannis, Z; Prato, M. (Chemical Physics Letters, 2017, 683, 454-458).
41 Perylene Diimide Aggregates on Sb-Doped SnO2: Charge Transfer Dynamics Relevant to Solar Fuel Generation
Berardi, S; Cristino, V; Canton, M; Boaretto, R; Argazzi, R; Benazzi, E; Ganzer, L; Borrego Varillas, R; Cerullo, G; Syrgiannis, Z; Rigodanza, F; Prato, M; Bignozzi, CA; Caramori, S. (Journal of Physical Chemistry C, 2017, 121, 17737-17745).
40 Injectable Carbon Nanotube-Functionalized Reverse Thermal Gel Promotes Cardiomyocytes Survival and Maturation
Peña, B; Bosi, S; Aguado, BA; Borin, D; Farnsworth, NL; Dobrinskikh, E; Rowland, TJ; Martinelli, V; Jeong, M; Taylor, MRG; Long, CS; Shandas, R; Sbaizero, O; Prato, M; Anseth, KS; Park, D; Mestroni, L. (ACS Applied Materials and Interfaces, 2017, 9, 31645-31656).
39 Effect of the fullerene in the properties of thin PEDOT/C-60 films obtained by co-electrodeposition
Alegret, N; Dominguez-Alfaro, A; Salsamendi, M; Gomez, IJ; Calvo, J; Mecerreyes, D; Prato, M. (Inorganica Chimica Acta, 2017, 468, 239-244).
38 Nanoscience and Nanotechnology Cross Borders
Khademhosseini, A; Chan, WWC; Chhowalla, M; Glotzer, SC; Gogotsi, Y; Hafner, JH; Hammond, PT; Hersam, MC; Javey, A; Kagan, CR; Kotov, NA; Lee, S; Li, Y; Möhwald, H; Mulvaney, PA; Nel, AE; Parak, WJ; Penner, RM; Rogach, AL; Schaak, RE; Stevens, MM; Wee, ATS; Brinker, J; Chen, X; Chi, L; Crommie, M; Dekker, C; Farokhzad, O; Gerber, C; Ginger, DS; Irvine, DJ; Kiessling, LL; Kostarelos, K; Landes, C; Lee, T; Leggett, GJ; Liang, X; Liz-Marzán, L; Millstone, J; Odom, TW; Ozcan, A; Prato, M; Rao, CNR; Sailor, MJ; Weiss, E; Weiss, PS. (ACS Nano, 2017, 11, 1123-1126).
37 Nanomaterials for stimulating nerve growth
Marchesan, S; Ballerini, L; Prato, M. (Science, 2017, 356, 1010-1011).
36 Direct visualization of carbon nanotube degradation in primary cells by photothermal imaging
Russier, J; Oudjedi, L; Piponnier, M; Bussy, C; Prato, M; Kostarelos, K; Lounis, B; Bianco, A; Cognet, L. (Nanoscale, 2017, 9, 4642-4645).
35 Interfacial charge transfer in functionalized multi-walled carbon nanotube@TiO2 nanofibres
Saha, A; Moya, A; Kahnt, A; Iglesias, D; Marchesan, S; Wannemacher, R; Prato, M; Vilatela, JJ; Guldi, DM. (Nanoscale, 2017, 9, 7911-7921).
34 Evaluation of concentration and dispersion of functionalized carbon nanotubes in aqueous media by means of Low Field Nuclear Magnetic Resonance
Porrelli, D; Cok, M; Abrami, M; Bosi, S; Prato, M; Grassi, M; Paoletti, S; Donati, I. (Carbon, 2017, 113, 387-394).
33 Highly sensitive electrochemiluminescent detection of prostate cancer biomarker
Juzgado, A; Soldà, A; Ostric, A; Criado, A; Valenti, G; Rapino, S; Conti, G; Fracasso, G; Paolucci, F; Prato, M. (Journal of Materials Chemistry B, 2017, 5, 6681-6687).
32 Top-down and bottom-up approaches to transparent, flexible and luminescent nitrogen-doped carbon nanodot-clay hybrid films
Dimos, K; Arcudi, F; Kouloumpis, A; Koutselas, IB; Rudolf, P; Gournis, D; Prato, M. (Nanoscale, 2017, 9, 10256-10262).
31 Recent Advances of Graphene-based Hybrids with Magnetic Nanoparticles for Biomedical Applications
Alegret, N; Criado, A; Prato, M. (Current Medicinal Chemistry, 2017, 24, 529-536).
30 Multichromophoric hybrid species made of perylene bisimide derivatives and Ru(ii) and Os(ii) polypyridine subunits
Nastasi, F; La Ganga, G; Campagna, S; Syrgiannis, Z; Rigodanza, F; Vitale, S; Licciardello, A; Prato, M. (Physical Chemistry Chemical Physics, 2017, 19, 14055-14065).
29 A simple approach to synthetize folic acid decorated magnetite@SiO2 nanostructures for hyperthermia applications
Bettini, S; Giancane, G; Pagano, R; Bonfrate, V; Salvatore, L; Madaghiele, M; Buccolieri, A; Manno, D; Serra, A; Maruccio, G; Monteduro, AG; Syrgiannis, Z; Valli, L; Prato, M. (Journal of Materials Chemistry B, 2017, 5, 7547-7556).
28 Few-Layer Graphene Kills Selectively Tumor Cells from Myelomonocytic Leukemia Patients
Russier, J; León, V; Orecchioni, M; Hirata, E; Virdis, P; Fozza, C; Sgarrella, F; Cuniberti, G; Prato, M; Vázquez, E; Bianco, A; Delogu, LG. (Angewandte Chemie International Edition, 2017, 56, 3014-3019).
27 Nanocrystalline cellulose-fullerene: Novel conjugates
Herreros-López, A; Carini, M; Da Ros, T; Carofiglio, T; Marega, C; La Parola, V; Rapozzi, V; Xodo, L; Alshatwi, AA; Hadad, C; Prato, M. (Carbohydrate Polymers, 2017, 164, 92-101).
26 Promises, facts and challenges for graphene in biomedical applications
Reina, G; González-Domínguez, JM; Criado, A; Vázquez, E; Bianco, A; Prato, M. (Chemical Society Reviews, 2017, 46, 4400 -4416).
25 Targeted killing of prostate cancer cells using antibody-drug conjugated carbon nanohorns
Lucío, MI; Opri, R; Pinto, M; Scarsi, A; Fierro, JLG; Meneghetti, M; Fracasso, G; Prato, M; Vázquez, E; Herrero, MA. (Journal of Materials Chemistry B, 2017, 5, 8821-8832).
24 Rationally Designed Carbon Nanodots towards Pure White-Light Emission
Arcudi, F; Đorđević, L; Prato, M. (Angewandte Chemie International Edition, 2017, 56, 4170 -4173).
23 Making H2 from light and biomass-derived alcohols: the outstanding activity of newly designed hierarchical MWCNT/Pd@TiO2 hybrid catalysts
Beltram, A; Melchionna, M; Montini, T; Nasi, L; Fornasiero, P; Prato, M. (Green Chemistry, 2017, 19, 2379-2389).
22 Primary microglia maintain their capacity to function despite internalisation and intracellular loading with carbon nanotubes
Bussy, C; Bianco, A; Prato, M; Kostarelos, K. (Nanoscale Horizons, 2017, 2, 284-296).
21 Amine-Rich Nitrogen-Doped Carbon NanoDots as Platform for Self-Enhancing Electrochemiluminescence
Carrara, S; Arcudi, F; Prato, M; De Cola, L. (Angewandte Chemie International Edition, 2017, 56, 4757-4761).
20 Inside Back Cover: Amine-Rich Nitrogen-Doped Carbon Nanodots as a Platform for Self-Enhancing Electrochemiluminescence (Angew. Chem. Int. Ed. 17/2017)
Carrara, S; Arcudi, F; Prato, M; De Cola, L. (Angewandte Chemie International Edition, 2017, 56, 4891-4891).
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2016

19 Shuttling as a Strategy to Control the Regiochemistry of Bis-Additions on Fullerene Derivatives
Carini, M; Prof. Tatiana Da Ros, T; Prato, M; Mateo-Alonso, A. (ChemPhysChem, 2016, 17, 1823-1828).
18 In vitro and in vivo efficacy, toxicity, bio-distribution and resistance selection of a novel antibacterial drug candidate
Brunetti, J; Falciani, C; Roscia, G; Pollini, S; Bindi, S; Scali, S; Arrieta, UC; Gómez-Vallejo, V; Quercini, L; Ibba, E; Prato, M; Rossolini, GM; Llop, J; Bracci, L; Pini, A. (Scientific Reports, 2016, 6, 26077).
17 Co-axial heterostructures integrating palladium/titanium dioxide with carbon nanotubes for efficient electrocatalytic hydrogen evolution
Valenti, G; Boni, A; Melchionna, M; Cargnello, M; Nasi, L; Bertoni, G; Gorte, RJ; Marcaccio, M; Rapino, S; Bonchio, M; Fornasiero, P; Prato, M; Paolucci, F. (Nature Communications, 2016, 7, 13549).
16 Biomedical Uses for 2D Materials Beyond Graphene: Current Advances and Challenges Ahead
Kurapati, R; Kostarelos, K; Prato, M; Bianco, A. (Advanced Materials Interfaces, 2016, 28, 6052-6074).
15 3D meshes of carbon nanotubes guide functional reconnection of segregated spinal explants
Usmani, S; Aurand, ER; Medelin, M; Fabbro, A; Scaini, D; Laishram, J; Rosselli, FB; Ansuini, A; Zoccolan, D; Scarselli, M; De Crescenzi, M; Bosi, S; Prato, M; Ballerini, L. (Science Advances, 2016, 2, e1600087-e1600087).
14 Synthesis and Catalytic Activity of Gold Nanoparticles Supported on Dendrimeric Nanocellulose Hybrids
Herreros-López, A; Hadad, C; Yate, L; Alshatwi, AA; Vicentini, N; Carofiglio, T; Prato, M. (European Journal of Organic Chemistry, 2016, 2016, 3186-3192).
13 Graphene-Based interfaces do not alter target nerve cells
Fabbro, A; Scaini, D; León, V; Vázquez, E; Cellot, G; Privitera, G; Lombardi, L; Torrisi, F; Tomarchio, F; Bonaccorso, F; Bosi, S; Ferrari, AC; Ballerini, L; Prato, M. (ACS Nano, 2016, 10, 615-623).
12 Single Walled Carbon Nanohorns as Catalytic Counter Electrodes for Co(III)/(II) Electron Mediators in Dye Sensitized Cells
Carli, S; Casarin, L; Syrgiannis, Z; Boaretto, R; Benazzi, E; Caramori, S; Prato, M; Bignozzi, CA. (ACS Applied Materials and Interfaces, 2016, 8, 14604-14612).
11 Ecotoxicological effects of graphene-based materials
Montagner, A; Bosi, S; Tenori, E; Bidussi, M; Alshatwi, AA; Tretiach, M; Prato, M; Syrgiannis, Z. (2D Materials, 2016, 4, 012001).
10 Ruthenium based photosensitizer/catalyst supramolecular architectures in light driven water oxidation
Burian, M; Syrgiannis, Z; La Ganga, G; Puntoriero, F; Natali, M; Scandola, F; Campagna, S; Prato, M; Bonchio, M; Amenitsch, H; Sartorel, A. (Inorganica Chimica Acta, 2016, 454, 171-175).
9 Single-Walled Carbon Nanotube-Polyamidoamine Dendrimer Hybrids for Heterogeneous Catalysis
Giacalone, F; Campisciano, V; Calabrese, C; La Parola, V; Syrgiannis, Z; Prato, M; Gruttadauria, M. (ACS Nano, 2016, 10, 4627-4636).
8 Facile and quick preparation of carbon nanohorn-based counter electrodes for efficient dye-sensitized solar cells
Lodermeyer, F; Prato, M; Costa, RD; Guldi, DM. (Nanoscale, 2016, 8, 7556-7561).
7 Carbon nanotubes for organ regeneration: An electrifying performance
Marchesan, S; Bosi, S; Alshatwi, A; Prato, M. (Nano Today, 2016, 11, 398-401).
6 Graphene Oxide Nanosheets Reshape Synaptic Function in Cultured Brain Networks
Rauti, R; Lozano, N; León, V; Scaini, D; Musto, M; Rago, I; Ulloa Severino, FP; Fabbro, A; Casalis, L; Vázquez, E; Kostarelos, K; Prato, M; Ballerini, L. (ACS Nano, 2016, 10, 4459-4471).
5 Intracellular degradation of chemically functionalized carbon nanotubes using a long-term primary microglial culture model
Bussy, C; Hadad, C; Prato, M; Bianco, A; Kostarelos, K. (Nanoscale, 2016, 8, 590-601).
4 Production and stability of mechanochemically exfoliated graphene in water and culture media
León, V; González-Domínguez, JM; Fierro, JLG; Prato, M; Vázquez, E. (Nanoscale, 2016, 8, 14548-14555).
3 Synthesis, separation, and characterization of small and highly fluorescent nitrogen-doped carbon nanodots
Arcudi, F; Đorđević, L; Prato, M. (Angewandte Chemie International Edition, 2016, 55, 2107-2112).
2 Mix and match metal oxides and nanocarbons for new photocatalytic frontiers
Melchionna, M; Prato, M; Fornasiero, P. (Catalysis Today, 2016, 277, 202-213).
1 The influence of molecular structure on the self-assembly of phenanthroline derivatives into crystalline nanowires
Grzelczak, M; Kulisic, N; Prato, M; Mateo-Alonso, A. (Particle and Particle Systems Characterization, 2014, 31, 121-125).
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