2020 – 2024
M Frascio, C Mandolfino, F Moroni, M Jilich… – International Journal of …, 2021 – Elsevier
… [19] studied the most suitable process setups to improve bonding strength for different polymers using a radio frequency low-pressure plasma (Gambetti Kenologia, Italy). It was found … [PDF] unifi.it
CsPbBr3 perovskite thin films by magnetron sputtering: The role of the substrate on texture and morphology
… doped, Gambetti Kenologia SRL… plasma generated and confined into a space close to the target. The surface of the target is eroded by the impacts of high-energy ions within the plasma…
Exploitation of tannic acid as additive for the adhesion enhancement of UV-curable bio-based coating
… The surfaces of the second set were treated with an air plasma (Tucano, Gambetti Kenologia Srl, Italy) for 10 min at 100 W and quickly packed with an aluminum foil after the process to …
A design-of-experiments approach to estimate the effect of plasma-treatment parameters on the mechanical resistance of adhesive-bonded joints
C Mandolfino, L Cassettari, M Pizzorni… – Journal of Manufacturing …, 2021 – Elsevier
… Before adhesive application, the entire surface of the adherends was modified using a low-pressure plasma RF reactor mod. Tucano (Gambetti Kenologia, Italy) operating at a fixed … [PDF] wiley.comACNP Full Text
Plant‐inspired soft bistable structures based on hygroscopic electrospun nanofibers
D Lunni, M Cianchetti, C Filippeschi… – Advanced Materials …, 2020 – Wiley Online Library
… Desired deformation was imposed and an oxygen plasma treatment (Gambetti Kenologia Colibrì) was applied with a power of 30 W for 30 s. After the treatment, the prestressed …
… an air plasma (10 min, 100 W, TUCANO2, Gambetti Kenologia Srl) in … plasma treated on Al foils and suddenly packed at the end of the treatment in order to avoid contamination. Plasma …
A Spider Leg‐Inspired mm‐Scale Soft Exoskeleton Enabled by Liquid via Hydration and Charge Transport
… Before printing, the silicon substrates were cleaned with oxygen plasma (Colibrì Plasma RF 50 kHz, Gambetti Kenologia). After printing, the structures were developed in propylene …
Green and integrated wearable electrochemical sensor for chloride detection in sweat
… plasma reactor (Tucano, Gambetti kenologia SRL, Binasco, Italy) equipped with a polarized anode (RF = 13.56 MHz). To evaluate the influence of the plasma … treated with plasma. In …
Topochemical Transformation of Two-Dimensional VSe2 into Metallic Nonlayered VO2 for Water Splitting Reactions in Acidic and Alkaline Media
… The as-prepared ex-VSe 2 films were subjected to O 2 plasma treatment by using a Tucano plasma system (50 Hz) (Gambetti Kenologia Srl) with a 100 W power supply for 10 min. The …
High blood flow shear stress values are associated with circulating tumor cells cluster disaggregation in a multi-channel microfluidic device
… Briefly, it consists in an oxygen plasma treatment for 240 seconds with 50 W (Tucano plasma reactor Gambetti Kenologia) and in the vapor phase deposition (p = 30 kPa) for 30 minutes … [PDF] nature.comACNP Full Text
Plant-like hooked miniature machines for on-leaf sensing and delivery
… The silicon wafer was treated with plasma (Colibrì Plasma RF 50 kHz—Gambetti Kenologia) and then the IP-Q photoresist was poured onto the wafer which was then exposed to the … [PDF] mdpi.comACNP Full Text
Nanofluidic-based accumulation of antigens for miniaturized immunoassay
… plasma treatment, we used a Tucano system (TUC-1B-MF, Gambetti Kenologia srl, Italy). Initially, we exposed the device to an extended oxygen plasma treatment at 70 W, for 10 min, to … [PDF] rsc.org
Fluorescence labeling methods influence the aggregation process of α-syn in vitro differently
… 100 μl of diluted fibrils were deposited on an oxygen plasma-treated glass coverslip, using a Tucano (Gambetti Kenologia, Italy) setup. The coverslip was treated by applying three 180 s … [PDF] ua.es
Metal-free abatement of nitrate contaminant from water using a conducting polymer
JJ Villora-Picó, MJ García-Fernández… – Chemical Engineering …, 2021 – Elsevier
… The samples were repeatedly treated in a Tucano plasma system (Gambetti Kenologia, Italy) in … The temperature of the plasma treated samples remained always below 50 C (measured … [PDF] nature.comACNP Full Text
Conditioning the microenvironment for soft tissue regeneration in a cell free scaffold
I Gerges, M Tamplenizza, F Martello, S Koman… – Scientific Reports, 2021 – nature.com
… Purified PUEt cylindrical samples underwent plasma-oxygen treatment (40 W, 80 s) in a plasma reactor (Colibrì, Gambetti Kenologia), using O 2 as ionizing gas. Subsequently, 314μL of …
Climbing plant‐inspired micropatterned devices for reversible attachment
I Fiorello, O Tricinci, GA Naselli… – Advanced Functional …, 2020 – Wiley Online Library
… The other side of the Mylar sheet was then plasma-treated for 60 s (Colibrì, Gambetti Kenologia SRL) to facilitate the adhesion of the IP-S resist onto the surface of the Mylar. The treated … [PDF] rsc.orgACNP Full Text
Development of biodegradable zein-based bilayer coatings for drug-eluting stents
… for 10 minutes to remove impurities and then pretreated with O 2 plasma for 2 minutes at 100 W using a Tucano plasma system (Gambetti Kenologia, Milano, Italy). The rutin-loaded zein … [HTML] sciencedirect.com
Insight on defects mechanically introduced by nanoindentation in 4H-SiC pn diode
A Sciuto, PP Barbarino, D Mello, G D’Arrigo – Materials & Design, 2024 – Elsevier
… The authors also thank Gambetti Kenologia, MI, Italy who created the link between CNR-…pulsed laser plasma, J. Mat. Res., 28 (2013) 87-93, https://doi.org/10.1557/jmr.2012.211. … [PDF] researchgate.netACNP Full Text
Integrating Microstructured Electrospun Scaffolds in an Open Microfluidic System for in Vitro Studies of Human Patient-Derived Primary Cells
… Then, the printed masters were oxygen plasma activated (50 W, 15 sccm, 60 s; Tucano,
Gambetti Kenologia, Binasco, Milan, Italy) and exposed to 20 μL of FOTS from the vapor phase …
Gambetti Kenologia, Binasco, Milan, Italy) and exposed to 20 μL of FOTS from the vapor phase …
C Giustizieri – 2022 – webthesis.biblio.polito.it
… Per una maggiore decontaminazione e attivazione superficiale, sono stati trattati al plasma atmosferico (Figura 36, sistema Tucano, GAMBETTI KENOLOGIA SRL) sia i campioni in …
2019
● Conducting polymer-TiO2 hybrid materials: application in the removal of nitrates from water
JJ Villora-Picó, V Belda-Alcázar, MJ García-Fernández… – Langmuir, 2019 a platinum catalyst supported on the hybrid materials is considerably lower than those of the metal-free nanocomposites. Page 3 of 57 … oxidant, as a very low yield was obtained with iron chloride of a Tucano plasma system ● Integrated ternary bionanocomposites with superior mechanical performance via the synergistic role of graphene and plasma treated carbon nanotubes R Scaffaro, A Maio – Composites Part B: Engineering, 2019 1,2].
The plasma reactor used for the surface treatment is a Tucano Gambetti apparatus, equipped Fig. 4. SEM analysis of nanocomposites at low resolution to detect aggregates (scale bar = 100 μm) … it should be noted that B-series ● Polypropylene surface modification by low pressure plasma to increase adhesive bonding: Effect of process parameters
C Mandolfino – Surface and Coatings Technology, 2019 evaluations. As regards the PP samples treated with Low Pressure Plasma (LPP), a Tucano (Gambetti Kenologia, Italy) plasma device, powered by an RF generator operating at a frequency of 13.56 MHz, was used. Such preparation ● Low-pressure plasma treatment of CFRP substrates for epoxy-adhesive bonding: an investigation of the effect of various process gases
M. Pizzorni. E. Lertora C. Gambaro C. Mandolfino M. Salerno M. Prato ● Light-Responsive Nanocapsule-Coated Polymer Films for Antimicrobial Active Packaging
V Marturano, V Bizzarro, V Ambrogi, A Cutignano… – Polymers, 2019 – mdpi.com … nanocapsules coating. Plasma treatment was performed on square polymer films (surface area of 2 cm 2 ) employing a Tucano medium plasma reactor 600 (Gambetti Kenologia, Milano, Italy) for 12 min. Alternatively, corona …
2018
S Lai, F Viola, P Cosseddu, A Bonfiglio – Sensors, 2018 – mdpi.com… Oxygen plasma activation was performed using a Gambetti–Tucano plasma system, under a pressure of 0.2 mbar with a RF power of 60 W applied for 30 s. Plasma activation was used to increase the wettability of the Kapton ® ‘s surfaces … ● Effect of plasma treatment on mechanical and thermal properties of marble powder/epoxy composites
V Fiore, G Di Bella, T Scalici, A Valenza – Polymer Composites, 2018 – Wiley Online Library … The atmospheric plasma treatment was performed by using a plasma reactor (Tucano, Gambetti, Italy), which has a chamber volume of about 5.5 L. The process was carried out in four steps: (i) reaction chamber from ambient pressure to 0.2 mbar; (ii) stabilization of the inner … ● Effect of cold Ar plasma treatment on the catalytic performance of Pt/CeO2 in water-gas shift reaction (WGS)
L Pastor-Pérez, V Belda-Alcázar, C Marini… – Applied Catalysis B …, 2018 – Elsevier … include glow discharge, dielectric barrier discharge (DBD), gliding arc discharge, radio frequency (RF) and microwave (MW) plasmas … boat, which was placed in the glow discharge stainless steel cylindrical chamber of a Tucano plasma system (Gambetti Kenologia, Italy ● Engineered kidney tubules for modeling patient-specific diseases and drug discovery
V Benedetti, V Brizi, P Guida, S Tomasoni, O Ciampi… – EBioMedicine, 2018 – Elsevier … To facilitate the de-molding of the polymeric replicas, masters were functionalized with an oxygen plasma treatment (Tucano plasma reactor Gambetti Kenologia) and with the deposition, from vapor phase, of an anti-sticking layer of Trichloro (1H,1H,2H,2H-perfluorooctyl) silane … ● Proposed mechanisms for the removal of nitrate from water by platinum catalysts supported on polyaniline and polypyrrole
MJ García-Fernández, MM Pastor-Blas, F Epron… – Applied Catalysis B …, 2018 – Elsevier … as follows [https://www.mdpi.com/2073-4360/11/1/68]: The precursors of the polymer-supported catalysts were loaded on an aluminum boat, which was placed in the glow discharge stainless steel cylindrical chamber of a Tucano plasma system (Gambetti Kenologia, Italy), provided with an anodized aluminum door
● Biomineral Amorphous Lasers through Light‐Scattering Surfaces Assembled by Electrospun Fiber Templates
M Moffa, A Camposeo, V Fasano… – Laser & Photonics …, 2018 – Wiley Online Library Fiber functionalization is performed according to the processes schematized in Figure 1. For methods based on physisorption (PA) and chemical grafting (CG), fibers are firstly treated with plasma oxygen by a tabletop system (Tucano, Gambetti Kenologia) at 30 W for 3 min ● Standardized microgel beads as elastic cell mechanical probes
S Girardo, N Traeber, K Wagner, G Cojoc… – Journal of Materials …, 2018 – pubs.rsc.org ● Deciphering the relative contribution of vascular inflammation and blood rheology in metastatic spreading
H Mollica, A Coclite, ME Miali, RC Pereira… – …, 2018 – aip.scitation.org Vascular adhesion of circulating tumor cells (CTCs) is a key step in cancer spreading. If inflammation is recognized to favor the formation of vascular “metastatic niches,” little is known about the contribution of blood rheology to CTC deposition. Herein, a microfluidic chip, covered …
2017
● Laura Pastor-Pérez, Victor Belda-Alcázar, Carlo Marini, M. Mercedes Pastor-Blas, Antonio Sepúlveda-Escribano, Enrique V. Ramos-Fernandez, Effect of cold Ar plasma treatment on the catalytic performance of Pt/CeO2 in water-gas shift reaction (WGS) Applied Catalysis B: Environmental, Volume 225, 5 June 2017, Pages 121-127
● Giada Graziana Genchi, Edoardo Sinibaldi, Luca Ceseracciu, Massimiliano Labardi, Attilio Marino, Sergio Marras, Giorgio De Simoni, Virgilio Mattoli, Gianni Ciofani, Ultrasound-activated piezoelectric P(VDF-TrFE)/boron nitride nanotube composite films promote differentiation of human SaOS-2 osteoblast-like cells Nanomedicine: Nanotechnology, Biology and Medicine, May 2017
● A. Cafarelli, , A. Verbeni, A. Poliziani, P. Dario, A. Menciassi, L. Ricotti Tuning acoustic and mechanical properties of materials for ultrasound phantoms and smart substrates for cell cultures Science Direct Volume 49, February 2017, Pages 368–378
● Patrizia Guida, Roberto Lo Savio, Cristina Potrich, Valentina Vaghi, Elena Angeli, Lia Vanzetti, Denise Pezzuoli, Laura Pasquardini, Giuseppe Firpo, Luca Repetto, Diego Repetto, Cecilia Pederzolli and Ugo Valbusa Enhancing miRNAs Capture on Polydimethylsiloxane Surface with Nanostructuration Journal of Nanomedicine & Nanotechnology Volume 8, Issue 2 Journal of Nanomedicine & Nanotechnology · April 2017
● Roberto Scaffaro, Francesco Lopresti, Alberto Suterab, Luigi Botta, Rosa Maria Fontanab, Giuseppe Gallo Plasma modified PLA electrospun membranes for actinorhodin production intensification in Streptomyces coelicolor immobilized-cell cultivations University of Palermo Italy, Dipartimento di Ingegneria Civile, Ambientale, Aerospaziale, dei Materiali & Dipartimento di Scienze e Tecnologie Biologiche, Chimiche e Farmaceutiche,
● Ilaria Tonazzini1,2,4, Maria Moffa1,4, Dario Pisignano1,3 and Marco Cecchini1 Neuregulin 1 functionalization of organic fibers for Schwann cell guidance Published 17 March 2017 • © 2017 IOP Publishing Ltd Nanotechnology, Volume 28, Number 15
● Mandolfino, C., Lertora, E., Gambaro, Influence of cold plasma treatment parameters on the mechanical properties of polyamide homogeneous bonded joints, Surface and Coatings Technology, Volume 313, 15 March 2017, Pages 222-229, ISSN 0257-8972
● Edwin S. Gnanakumar, Wesley Ng, Bilge Cos ̧ kuner Filiz, Gadi Rothenberg, Sheng Wang, Hualong Xu, Laura Pastor-PØrez, M. Mercedes Pastor-Blas, Antonio Sepffllveda-Escribano, Ning Yan, and N. Raveendran Shiju Plasma-Assisted Synthesis of Monodispersed and Robust Ruthenium Ultrafine Nanocatalysts for Organosilane Oxidation and Oxygen Evolution Reactions
2016
● Baratto, C., M. Ferroni, E. Comini, G. Faglia, S. Kaciulis, S. K. Balijepalli, and G. Sberveglieri. “Vapour Phase Nucleation of Zno Nanowires on Gan: Growth Habit, Interface Study and Optical Properties.” RSC Advances 6, no. 18 (2016): 15087-93.
● De Caro, Liberato, Davide Altamura, Milena Arciniegas, Dritan Siliqi, Mee R. Kim, Teresa Sibillano, Liberato Manna, and Cinzia Giannini. “Ptychographic Imaging of Branched Colloidal Nanocrystals Embedded in Free-Standing Thick Polystyrene Films.” Scientific Reports 6 (01/18/online 2016): 19397. ● Fiore, V., G. Di Bella, T. Scalici, and A. Valenza. “Effect of Plasma Treatment on Mechanical and Thermal Properties of Marble Powder/Epoxy Composites.”
Polymer Composites (2016): n/a-n/a. ● Sciancalepore, Anna G., Maria Moffa, Simonetta Carluccio, Luigi Romano, Giuseppe S. Netti, Clelia Prattichizzo, and Dario Pisignano. “Bioactive Nanofiber Matrices Functionalized with Fibronectin-Mimetic Peptides Driving the Alignment and Tubular Commitment of Adult Renal Stem Cells.”
Macromolecular Chemistry and Physics 217, no. 2 (2016): 199-212.
2015
● Limongi T, Miele E, Shalabaeva V, Rocca RL, Schipani R, et al. (2015) “Development, Characterization and Cell Cultural Response of 3D Biocompatible Micro-Patterned Poly-ε-Caprolactone Scaffolds Designed and Fabricated Integrating Lithography and Micromolding Fabrication Techniques.” J Tissue Sci Eng 6:145. doi: 10.4172/2157-7552.1000145 ● Baratto, C., R. Kumar, E. Comini, G. Faglia, and G. Sberveglieri. “Visible Electroluminescence from a Zno Nanowires/P-Gan Heterojunction Light Emitting Diode.”
Optics Express 23, no. 15 (2015/07/27 2015): 18937-42. ● Firpo, G., E. Angeli, L. Repetto, and U. Valbusa. “Permeability Thickness Dependence of Polydimethylsiloxane (Pdms) Membranes.”
Journal of Membrane Science 481 (5/1/ 2015): 1-8. ● Garcia-Fernandez, M. Jesus, Robison Buitrago-Sierra, M. Mercedes Pastor-Blas, O. S. G. P. Soares, M. F. R. Pereira, and Antonio Sepulveda-Escribano. “Green Synthesis of Polypyrrole-Supported Metal Catalysts: Application to Nitrate Removal in Water.” RSC Advances 5, no. 41 (2015): 32706-13.
● Zucca, Alessandra, Christian Cipriani, Sudha, Sergio Tarantino, Davide Ricci, Virgilio Mattoli, and Francesco Greco. “Tattoo Conductive Polymer Nanosheets for Skin-Contact Applications.” Advanced Healthcare Materials 4, no. 7 (2015): 983-90.
2014
● Angeli E, Mussi V, Fanzio P, Manneschi C, Repetto L, Firpo G, Guida P, Ierardi V, Volpe A, Valbusa U. “Micro and Nanofluidic Platforms for Advanced Diagnostics.” Edorium J Nanotechnol 1 (2014): 1-7.
● Jacchetti, Emanuela, Ilaria Tonazzini, Sandro Meucci, Fabio Beltram, and Marco Cecchini. “Microstructured Polydimethylsiloxane Membranes for Peripheral Nerve Regeneration.” Microelectronic Engineering 124 (7/25/ 2014): 26-29.
● Lantano, Claudia, Ilaria Alfieri, Antonella Cavazza, Claudio Corradini, Andrea Lorenzi, Nicola Zucchetto, and Angelo Montenero. “Natamycin Based Sol–Gel Antimicrobial Coatings on Polylactic Acid Films for Food Packaging.” Food Chemistry 165 (12/15/ 2014): 342-47.
● Maio, Andrea, Luigi Botta, Alina Carmen Tito, Lorenzo Pellegrino, Matteo Daghetta, and Roberto Scaffaro. “Statistical Study of the Influence of Cnts Purification and Plasma Functionalization on the Properties of Polycarbonate-Cnts Nanocomposites.” Plasma Processes and Polymers 11, no. 7 (2014): 664-77.
● Mandolfino, Chiara, Enrico Lertora, and Carla Gambaro. “Cold plasma improves bonding“, plastix (2014)
● Mandolfino, Chiara, Enrico Lertora, and Carla Gambaro. “Il plasma freddo migliora l’incollaggio dei CFRC“, plastix (2014)
● Mandolfino, Chiara, Enrico Lertora, and Carla Gambaro. “Cold Plasma Pretreatment of Carbon Fibre Composite Substrates to Improve Adhesive Bonding Performance.” Advances in Aerospace Engineering 2014 (2014): 7. ● Villa, Chiara, Federico Martello, Silvia Erratico, Alessandro Tocchio, Marzia Belicchi, Cristina Lenardi, and Yvan Torrente. “P(Nipaam–Co-Hema) Thermoresponsive Hydrogels: An Alternative Approach for Muscle Cell Sheet Engineering.”
Journal of Tissue Engineering and Regenerative Medicine (2014): n/a-n/a. ● Fatyeyeva, K., Dahi, A., Chappey, C., Langevin, D., Valleton, J.-M., Poncin-Epaillard, F., and Marais, S.: ‘Effect of cold plasma treatment on surface properties and gas permeability of polyimide films’, RSC Advances, 2014, 4, (59), pp. 31036-31046
● C. Mandolfino, E. Lertora, C. Gambaro, “Effect of Cold Plasma Treatment on Surface Roughness and Bonding Strength of Polymeric Substrates“, Key Engineering Materials, Vols. 611-612, pp. 1484-1493, 2014 ● Mandolfino, C., Lertora, E., Gambaro, C., and Bruno, M.: ‘Improving adhesion performance of polyethylene surfaces by cold plasma treatment’, Meccanica, 2014, 49, (10), pp. 2299-2306
2013
● Baratto, Camilla, Elisabetta Comini, Matteo Ferroni, Guido Faglia, and Giorgio Sberveglieri. “Plasma-Induced Enhancement of Uv Photoluminescence in Zno Nanowires.” CrystEngComm 15, no. 39 (2013): 7981-86. ● Buitrago-Sierra, Robison, M. Jesus Garcia-Fernandez, M. Mercedes Pastor-Blas, and Antonio Sepulveda-Escribano. “Environmentally Friendly Reduction of a Platinum Catalyst Precursor Supported on Polypyrrole.”
Green Chemistry 15, no. 7 (2013): 1981-90. ● Corradini, Claudio, Ilaria Alfieri, Antonella Cavazza, Claudia Lantano, Andrea Lorenzi, Nicola Zucchetto, and Angelo Montenero. “Antimicrobial Films Containing Lysozyme for Active Packaging Obtained by Sol–Gel Technique.”
Journal of Food Engineering 119, no. 3 (12// 2013): 580-87. ● Di Benedetto, Francesca, Vito Fasano, Luana Persano, Claudio Maruccio, Elisa Mele, Giovanni Potente, David A. Weitz, Laura De Lorenzis, and Dario Pisignano. “Rolling Particle Lithography by Soft Polymer Microparticles.”
Soft Matter 9, no. 7 (2013): 2206-11. ● Genchi, Giada Graziana, Gianni Ciofani, Ioannis Liakos, Leonardo Ricotti, Luca Ceseracciu, Athanassia Athanassiou, Barbara Mazzolai, Arianna Menciassi, and Virgilio Mattoli. “Bio/Non-Bio Interfaces: A Straightforward Method for Obtaining Long Term Pdms/Muscle Cell Biohybrid Constructs.”
Colloids and Surfaces B: Biointerfaces 105 (5/1/ 2013): 144-51. ● Greco, Francesco, Alessandra Zucca, Silvia Taccola, Barbara Mazzolai, and Virgilio Mattoli. “Patterned Free-Standing Conductive Nanofilms for Ultraconformable Circuits and Smart Interfaces.”
ACS Applied Materials & Interfaces 5, no. 19 (2013/10/09 2013): 9461-69. ● Moffa, Maria, Alessandro Polini, Anna Giovanna Sciancalepore, Luana Persano, Elisa Mele, Laura Gioia Passione, Giovanni Potente, and Dario Pisignano. “Microvascular Endothelial Cell Spreading and Proliferation on Nanofibrous Scaffolds by Polymer Blends with Enhanced Wettability.”
Soft Matter 9, no. 23 (2013): 5529-39. ● Travagliati, Marco, Richie Shilton, Fabio Beltram, and Marco Cecchini. “Fabrication, Operation and Flow Visualization in Surface-Acoustic-Wave-Driven Acoustic-Counterflow Microfluidics.”
Journal of Visualized Experiments, no. 78 (2013/08/27/ 2013): e50524. ● Zucca, Alessandra, Francesco Greco, Barbara Mazzolai, and Virgilio Mattoli. “Free-Standing Pedot:Pss/Pla Bilayer Nanosheets with Ink-Jet Patterned Microelectrodes: Towards the Development of Ultra-Thin, Conformable, Floating Circuits and Smart Biointerfaces.”
MRS Online Proceedings Library Archive 1530 (2013): null-null. ● Canullo, L., Cassinelli, C., Gotz, W., and Tarnow, D.: ‘Plasma of argon accelerates murine fibroblast adhesion in early stages of titanium disk colonization’, The International journal of oral & maxillofacial implants, 2013, 28, (4), pp. 957-962
2012
● Canullo, Luigi, and Werner Götz. “Peri-Implant Hard Tissue Response to Glow-Discharged Abutments: Prospective Study. Preliminary Radiological Results .” Annals of Anatomy – Anatomischer Anzeiger 194, no. 6 (11// 2012): 529-32. ● De Marni, Marzia L., Ana Monegal, Samuele Venturini, Simone Vinati, Roberta Carbone, and Ario de Marco. “Antibody Purification-Independent Microarrays (Pim) by Direct Bacteria Spotting on Tio2-Treated Slides.”
Methods 56, no. 2 (2// 2012): 317-25. ● Ruben Bartali, Leandro Lorenzelli, Marina Scarpa, Elisa Morganti, Cristian Collini, Victor Micheli, Gloria Gottardi, Aman Gambetti, Glauco Gambetti, G. Coser, Rajesh Pandiyan, Ioana Luciu, Nadhira Laidani “Super-Hydrophilic Pdms and Pet Surfaces for Microfluidic Devices “.
Advances in Science and Technology 81 (2012): 5. ● Scaffaro, Roberto, and Andrea Maio. “Enhancing the Mechanical Performance of Polymer Based Nanocomposites by Plasma-Modification of Nanoparticles.”
Polymer Testing 31, no. 7 (10// 2012): 889-94. ● Scaffaro, Roberto, Andrea Maio, Simonpietro Agnello, and Antonella Glisenti. “Plasma Functionalization of Multiwalled Carbon Nanotubes and Their Use in the Preparation of Nylon 6-Based Nanohybrids.”
Plasma Processes and Polymers 9, no. 5 (2012): 503-12.
2011
● Angeli, Elena, Chiara Manneschi, Luca Repetto, Giuseppe Firpo, and Ugo Valbusa. “DNA Manipulation with Elastomeric Nanostructures Fabricated by Soft-Moulding of a Fib-Patterned Stamp.” Lab on a Chip 11, no. 15 (2011): 2625-29. ● Polini, Alessandro, Stefano Pagliara, Andrea Camposeo, Adriana Biasco, Heinz C. Schröder, Werner E. G. Müller, and Dario Pisignano. “Biosilica Electrically-Insulating Layers by Soft Lithography-Assisted Biomineralisation with Recombinant Silicatein.”
Advanced Materials 23, no. 40 (2011): 4674-78. ● Tu, Deyu, Stefano Pagliara, Andrea Camposeo, Giovanni Potente, Elisa Mele, Roberto Cingolani, and Dario Pisignano. “Soft Nanolithography by Polymer Fibers.”
Advanced Functional Materials 21, no. 6 (2011): 1140-45. ● Fanzio, P., Mussi, V., Manneschi, C., Angeli, E., Firpo, G., Repetto, L., and Valbusa, U.: ‘DNA detection with a polymeric nanochannel device’, Lab on a Chip, 2011, 11, (17), pp. 2961-2966
● Mussi, V., Fanzio, P., Repetto, L., Firpo, G., Stigliani, S., Tonini, G.P., and Valbusa, U.: ‘”DNA-Dressed NAnopore” for complementary sequence detection’, Biosensors & bioelectronics, 2011, 29, (1), pp. 125-131
2010
● Polini, Alessandro, Stefano Pagliara, Ripalta Stabile, Giuseppe Stefano Netti, Leonarda Roca, Clelia Prattichizzo, Loreto Gesualdo, Roberto Cingolani, and Dario Pisignano. “Collagen-Functionalised Electrospun Polymer Fibers for Bioengineering Applications.” Soft Matter 6, no. 8 (2010): 1668-74. ● Zanardi, A., D. Bandiera, F. Bertolini, C. A. Corsini, G. Gregato, P. Milani, E. Barborini, and R. Carbone. “Miniaturized Fish for Screening of Onco-Hematological Malignancies.”
Biotechniques 49, no. 1 (Jul 2010): 497-504.
