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2. Spectral characterization of two-dimensional Thue-Morse quasicrystals realized with high resolution lithography

Author

Matarazzo, V, De Nicola, S, Zito, G, Mormile, P, Rippa, M, Abbate, G, Zhou, J, and Petti, L

Subjects
Physics - Optics
Abstract

One-dimensional Thue-Morse (ThMo) lattices are examples of self-similar structures that exhibit bandgap phenomena. ThMo multilayers may also possess fractal photonic bandgaps that give rise to large omnidirectional reflectance and light emission enhancement effects. Two-dimensional (2D) ThMo aperiodic quasicrystals possess interesting properties for photonic applications too. Here we demonstrate the experimental fabrication of large area 2D ThMo lattices into polymeric substrates at nanometer scale by electron beam lithography (EBL). Far field diffraction patterns of the experimental Thue-Morse structures have been measured and compared with the calculated theoretical Fourier spectra. Scanning electron microscopy and far field diffraction are used to characterize the experimental structures., Comment: 8 pages, 5 figures

Published
2013
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3. Infrared multispectral monitoring of cereal crops

Author

Rippa M., Curcio R., Di Mola I., Ottaiano L., Cozzolino E., Mori M., Mormile P., Rippa, M., Curcio, R., Di Mola, I., Ottaiano, L., Cozzolino, E., Mori, M., and Mormile, P.

Subjects
Thermography, Cereal, Precision Agriculture, Plant Stre, Digital Agriculture, Infrared Imaging
Abstract

Plants are subjected to a wide range of stresses which reduces the productivity of agricultural crops. In the case of cereal cultivations, climate change impacts on their production mainly through abiotic and biotic stress due for example to heat and water stress but also to pathogens such as bacteria, fungi, nematodes and others. The area under cereal cultivation is increasing worldwide, but, due to these problems, the current rates of yield growth and overall production are not enough to satisfy future demand. For this motivation, there is the needs to monitor and to control the cultivations, also developing new technological solutions useful to better optimize the management strategies, increasing both the quality of products and the quantity of the annual cereal harvest. Infrared imaging is a well-known non-invasive and non-contact technique that represents an outstanding approach of analysis applied in many fields: engineering, medicine, veterinary, cultural heritage and others. In recent years it has been gaining great interest in agriculture as it is well suited to the emerging needs of the precision agriculture management strategies. In this work, we performed an in-field multispectral infrared monitoring of different cereal crops (durum wheat and common wheat) through the use of both LWIR and MWIR cameras. The monitoring carried out made it possible to identify, among the crops analyzed, those subject to higher stress levels and their response to the different spectral ranges used. The results obtained open to the possibility of identifying new figures of merit useful for an effective monitoring of cereal crops and measurable through remote instrumentation.

Published
2022

4. Photonic crystal electrode to be used in organic LED structures

Author

Petti L., Rippa M., Capasso R., Nenna G., De Girolamo Del Mauro A., La Ferrara V., Pacheri Madathil A., and Minarini C.

Subjects
oled, photonic crystal, efficiency, light trapping, Applied optics. Photonics, TA1501-1820, Optics. Light, QC350-467
Abstract

In this work we report the possibility to obtain a high refractive index grid anode directly on the substrate surface by fabricating a relatively large-area photonic crystal (PC) structure using the combinations of electron beam lithography (EBL) and focused ion beam (FIB) techniques. The performance of the realized photonic crystal (PC) structure were enhanced by milling the ITO layer until the glass substrate and by removing the further refractive index jump between the PC and the substrate. The good properties of highly conductive poly(3,4 ethylenedioxythiophene):poly(styrene sulfonate) (PEDOT:PSS), ensured a continuous path for the current and a high refractive index jump for the PC structure by filling the holes in the PC structure.

Published
2013
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7. Laser-tissue photothermal interaction: a thermal infrared imaging study

Author

Rippa, M., Giuseppe Monfrecola, Baldo, A., Merla, A., Petti, L., Mormile, P., Rippa, M., Monfrecola, Giuseppe, Baldo, A, Merla, A., Petti, L., and Mormile, P.

Subjects
laser therapy, treatment, infrared, pulsed thermography
Abstract

A 2-D approach, based on Infrared (IR) imaging for monitoring and optimizing the photo-therapy in dermatology, is proposed. We studied the possibility to employ IR imaging in order to select the laser treatment parameters for each patient. A Pulsed Thermography (PT) model allowed to evaluate morphological information on the specific area to treat after a single laser pulse test. The data were elaborated through a 2-D numerical simulation, which described the tissue temperature profiles for different sets of laser parameters. Based on this approach, it was possible to select the laser parameters according to specific pathology, morphology and phototype in order to achieve the best performances in the phototherapy practice.

Published
2013

13. Affinity labelling of the NADP+-binding site of glucose 6-phosphate dehydrogenase from Candida utilis

Author

Bellini, T, Signorini, M, Dallocchio, F, and Rippa, M

Abstract

1. Periodate-oxidized NADP+ inhibits the catalytic activity of glucose 6-phosphate dehydrogenase from Candida utilis, competing with NADP+. 2. Incubation of the enzyme with the coenzyme analogue causes partial reversible inactivation of the enzyme as a result of affinity labelling of the coenzyme-binding site. 3. Some kinetic values of the reaction were calculated. 4. The inactivation can be made irreversible by treatment with NaBH4, which reduces a Schiff base formed between an aldehyde group on the coenzyme analogue and a lysine residue on the enzyme. 5. Complete inactivation can be correlated with the binding of only one inhibitor to each enzyme subunit. 6. The lysine residue involved in the binding of the inhibitor is present at the coenzyme-binding site.

Published
1979
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19. Assessment of Yield and Nitrate Content of Wall Rocket Grown under Diffuse-Light- or Clear-Plastic Films and Subjected to Different Nitrogen Fertilization Levels and Biostimulant Application

Author

Ida Di Mola, Lucia Ottaiano, Eugenio Cozzolino, Christophe El-Nakhel, Massimo Rippa, Pasquale Mormile, Giandomenico Corrado, Youssef Rouphael, Mauro Mori, Di Mola, I., Ottaiano, L., Cozzolino, E., El Nakhel, C., Rippa, M., Mormile, P., Corrado, G., Rouphael, Y., and Mori, M.

Subjects
Diplotaxis tenuifolia L, greenhouse conditions, plastic films properties, nitrogen rates, non-microbial biostimulant, NO3, SPAD index, Plastic films propertie, Non-microbial biostimulant, Nitrogen rate, Plant Science, Horticulture, Greenhouse condition
Abstract

The quantity and quality of wall rocket (Diplotaxis tenuifolia L.) production are strongly influenced by the cultivation system, in particular the protected environment conditions and nitrogen fertilization. In the present research, we tested two greenhouse cover films (Film1: diffuse light; Film2: clear), to verify the effects on yield and nitrate content (a detrimental factor of quality) of rocket leaves, fertilized with optimal (N2) or sub-optimal nitrogen dose (N1), or unfertilized (N0). In addition, we combined the N fertilization with a biostimulant application, declared by the manufacturer as able to reduce nitrate content. Film1 provided a 36% yield increase over Film2 and allowed an increasing production until the V harvest, opposite to what was recorded under Film2, where the yield increased only until the III harvest. Additionally, biostimulant application boosted the yield (+40%), as well as nitrogen fertilization. Both factors had the best performance under Film1, where N1 yield was even equal to N2-Film2. The nitrate content showed a seasonal trend (lower values in spring harvests) and it was boosted by nitrogen (1096, 3696, and 4963 mg/kg fresh weight, for N0, N1, and N2, respectively) and biostimulant application (3924 vs. 2580 mg/kg fresh weight). Therefore, the use of diffuse-light film seems useful to obtain higher yield with a halved N dose as well as in combination with biostimulant application, but the latter did not confirm the capacity to contain nitrate, at least for this crop and in this cultivation system.

Published
2022
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20. Plasmonic Metasurfaces for Specific SERS Detection of Shiga Toxins

Author

M, Rippa, D, Sagnelli, A, Vestri, V, Marchesano, B, Munari, D, Carnicelli, E, Varrone, M, Brigotti, R, Tozzoli, M, Montalbano, S, Morabito, J, Zhou, J, Zyss, L, Petti, Rippa M., Sagnelli D., Vestri A., Marchesano V., Munari B., Carnicelli D., Varrone E., Brigotti M., Tozzoli R., Montalbano M., Morabito S., Zhou J., Zyss J., and Petti L.

Subjects
Photons, Surface Properties, SERS, bacterial infection, Metal Nanoparticles, Biocompatible Materials, Biosensing Techniques, Spectrum Analysis, Raman, nanobiosensors, bacterial infections, Materials Testing, Shiga toxins, Gold, Particle Size, nanobiosensor, octupolar nanostructure, Research Article, plasmonic
Abstract

The interest in the development of nanoscale plasmonic technologies has dramatically increased in recent years. The photonic properties of plasmonic nanopatterns can be controlled and tuned via their size, shape, or the arrangement of their constituents. In this work, we propose a 2D hybrid metallic polymeric nanostructure based on the octupolar framework with enhanced sensing property. We analyze its plasmonic features both numerically and experimentally, demonstrating the higher values of their relevant figures of merit: we estimated a surface-enhanced Raman spectroscopy (SERS) enhancement factor of 9 × 107 and a SPR bulk sensitivity of 430 nm/RIU. In addition, our nanostructure exhibits a dual resonance in the visible and near-infrared region, enabling our system toward multispectral plasmonic analysis. Finally, we illustrate our design engineering strategy as enabled by electron beam lithography by the outstanding performance of a SERS-based biosensor that targets the Shiga toxin 2a, a clinically relevant bacterial toxin. To the best of our knowledge, this is the first time that a SERS fingerprint of this toxin has been evidenced.

Published
2022

21. Greenhouse Photoluminescent PMMA Panels Improve the Agronomical and Physiological Performances of Lettuce (Lactuca sativa L.)

Author

Ida Di Mola, Stefano Conti, Milos Bartak, Eugenio Cozzolino, Lucia Ottaiano, Davide Giordano, Giuseppe Melchionna, Pasquale Mormile, Massimo Rippa, Luca Beltrame, Christophe El-Nakhel, Giandomenico Corrado, Youssef Rouphael, Mauro Mori, Di Mola, I., Conti, S., Bartak, M., Cozzolino, E., Ottaiano, L., Giordano, D., Melchionna, G., Mormile, P., Rippa, M., Beltrame, L., El Nakhel, C., Corrado, G., Rouphael, Y., and Mori, M.

Subjects
rare-earth elements, photoluminescence, greenhouse cover, doped poly-methyl methacrylate, chlorophyll fluorescence, NPQ, Plant Science, Horticulture
Abstract

Supplementary lighting of specific wavelengths can be used for inducing morphological and physiological responses in different crops, ultimately improving yield and quality. Based on this approach, new greenhouse covering materials are being developed in order to improve the use of sunlight in horticulture. These new-generation greenhouse coverings may incorporate light spectrum modulation agents or fluorescent additives which convert solar UV radiation into visible light. In this work, we tested the agronomical and physiological response of lettuce grown under a greenhouse covered with poly-methyl-methacrylate (PPMA) panels doped with a blend of the rare-earth inorganic material with a photo-luminescent effect. The doped greenhouse elicited a 36% increase in lettuce yield compared to the undoped greenhouse. Chlorophyll and carotenoid content, as well as antioxidant activity and ascorbic acid content, were not affected by greenhouse cover, but the doped panels induced a 22% reduction in total phenolics and a 14% increase in nitrate content in leaves. The greenhouse covering materials also affected the photochemistry of photosynthesis, as the daily fluctuations in both the effective quantum yield (ΦPSII) and the electron transport rate (ETR) were attenuated under the doped greenhouse. Non-photochemical quenching (NPQ) was closely related to the light environment in all experimental conditions, with the highest values at 14:00 h. Our results showed that the red-supplemented light spectrum under the doped greenhouse cover contributed to increased plant growth and yield, with a corresponding effect on the physiology of photosynthesis.

Published
2022

22. Real-Time Surface-Enhanced Raman Scattering Tracking of Adenine–Gold Charge Transfer Complex Formation on Nanocavity-Shaped Plasmonic Crystals

Author

Remigiusz K. Trojanowicz, Katarzyna Matczyszyn, Lucia Petti, Eugenia Bobeico, Riccardo Castagna, Massimo Rippa, Jun Zhou, Trojanowicz, R. K., Matczyszyn, K., Castagna, R., Rippa, M., Bobeico, E., Zhou, J., and Petti, L.

Subjects
Surface (mathematics), Materials science, Nanotechnology, Charge-transfer complex, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Nucleobase, symbols.namesake, General Energy, symbols, Physical and Theoretical Chemistry, Raman spectroscopy, Biosensor, Plasmon
Abstract

Understanding binding of DNA bases with gold surfaces is crucial for designing reliable tools in biosensing technology and organic-based electronics. Herein, we discuss an application of quasi periodic plasmonic nanocavities fabricated by a top-down method to study adenine interactions with gold surfaces. We report plasmon-mediated homogenous catalysis of adenine-gold complex formation, when adenine is deposited onto surfaces in different ways. In particular, we elucidate how additional information can be obtained by adsorbate irradiation with laser far from resonant conditions with a low-localized, high-integral field substrate. A comparative study between mono- and multilayers on gold is proposed, offering a solution to the controversial question of adenine orientation on gold surfaces by revealing charge transfer complex formation during real-time surface enhanced Raman scattering tracking. Additionally, the designed nanocavity-based plasmonic substrates exhibit a high sensitivity with a limit of detection ≈ 25 nM.

Published
2019

23. Photo-Responsivity Improvement of Photo-Mobile Polymers Actuators Based on a Novel LCs/Azobenzene Copolymer and ZnO Nanoparticles Network

Author

Domenico Sagnelli, Marcella Calabrese, Olga Kaczmarczyk, Massimo Rippa, Ambra Vestri, Valentina Marchesano, Kristoffer Kortsen, Valentina Cuzzucoli Crucitti, Fulvia Villani, Fausta Loffredo, Carmela Borriello, Giuseppe Nenna, Mariacristina Cocca, Veronica Ambrogi, Katarzyna Matczyszyn, Francesco Simoni, Lucia Petti, Sagnelli, D., Calabrese, M., Kaczmarczyk, O., Rippa, M., Vestri, A., Marchesano, V., Kortsen, K., Crucitti, V. C., Villani, F., Loffredo, F., Borriello, C., Nenna, G., Cocca, M., Ambrogi, V., Matczyszyn, K., Simoni, F., and Petti, L.

Subjects
azobenzene monomers, ZnO nanoparticles, General Chemical Engineering, 02 engineering and technology, Photo-mobile material, actuators, 010402 general chemistry, 021001 nanoscience & nanotechnology, photo-mobile materials, smart materials, liquid crystals, 01 natural sciences, Article, 0104 chemical sciences, Chemistry, Liquid crystal, Smart material, Actuator, Azobenzene monomer, General Materials Science, 0210 nano-technology, QD1-999
Abstract

The efficiency of photomobile polymers (PMP) in the conversion of light into mechanical work plays a fundamental role in achieving cutting-edge innovation in the development of novel applications ranging from energy harvesting to sensor approaches. Because of their photochromic properties, azobenzene monomers have been shown to be an efficient material for the preparation of PMPs with appropriate photoresponsivity. Upon integration of the azobenzene molecules as moieties into a polymer, they act as an engine, allowing fast movements of up to 50 Hz. In this work we show a promising approach for integrating ZnO nanoparticles into a liquid crystalline polymer network. The addition of such nanoparticles allows the trapping of incoming light, which acts as diffusive points in the polymer matrix. We characterized the achieved nanocomposite material in terms of thermomechanical and optical properties and finally demonstrated that the doped PMP was better performing that the undoped PMP film.

Published
2021

24. Plasmonic Photomobile Polymer Films

Author

Giuseppe Nenna, Lucia Petti, Riccardo Castagna, Fulvia Villani, Francesco Simoni, Massimo Rippa, Castagna, R., Rippa, M., Simoni, F., Villani, F., Nenna, G., and Petti, L.

Subjects
Materials science, Scanning electron microscope, General Chemical Engineering, flexible substrates, Nanotechnology, localized surface plasmonic resonance, 02 engineering and technology, NANOSTUCTURES, 01 natural sciences, plasmonics, 010309 optics, Inorganic Chemistry, 0103 physical sciences, lcsh:QD901-999, General Materials Science, Surface plasmon resonance, Plasmon, photomobile polymer films, chemistry.chemical_classification, Atomic force microscopy, Polymer, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Dark field microscopy, Characterization (materials science), chemistry, PHOTOMOBILE POLYMERS, lcsh:Crystallography, 0210 nano-technology, Plasmonic nanostructures
Abstract

In this work, we introduce the approaches currently followed to realize photomobile polymer films and remark on the main features of the system based on a biphasic structure recently proposed. We describe a method of making a plasmonic nanostructure on the surface of photomobile films. The characterization of the photomobile film is performed by means of Dark Field Microscopy (DFM), Scanning Electron Microscopy (SEM), and Atomic Force Microscopy (AFM). Preliminary observations of the light-induced effects on the Localized Surface Plasmon Resonance are also reported.

Published
2020

25. Poly (Lactic Acid)/Thermoplastic Starch Films: Effect of Cardoon Seed Epoxidized Oil on Their Chemicophysical, Mechanical, and Barrier Properties

Author

Sofía Collazo-Bigliardi, Rosa Turco, Mario Malinconico, Riccardo Tesser, Martino Di Serio, Massimo Rippa, Rodrigo Ortega-Toro, Amparo Chiralt Boix, Salvatore Mallardo, Gabriella Santagata, Turco, R., Ortega-Toro, R., Tesser, R., Mallardo, S., Collazo-Bigliardi, S., Boix, A. C., Malinconico, M., Rippa, M., Di Serio, M., and Santagata, G.

Subjects
chemistry.chemical_classification, Thermoplastic, Absorption of water, Materials science, technology, industry, and agriculture, Cardoon epoxidized oil, Compression molding, Surfaces and Interfaces, Polymer, Compatibilization, Miscibility, Surfaces, Coatings and Films, bioplastics, Bioplastic, chemistry.chemical_compound, Oxygen permeability, Differential scanning calorimetry, chemistry, Chemical engineering, lcsh:TA1-2040, Materials Chemistry, Biomass recovery, Poly (lactic acid), lcsh:Engineering (General). Civil engineering (General), Thermoplastic starch
Abstract

In this work, biodegradable films based on poly (lactic acid) (PLA) and corn thermoplastic starch (TPS), additivated with epoxidized cardoon oil plasticizer (ECO) at 3% by weight with respect to PLA mass fraction, were prepared by melt extrusion process and compression molding. The effect of ECO on structural, thermal, mechanical, barrier, and spectral optical properties of the films was investigated. Spectroscopic analysis evidenced the development of physical interaction between oil and polymers, mainly PLA. In addition, no oil migration occurrence was detected after six months of film preparation, as evidenced by oil mass evaluation by precipitation as well as by 1H-NMR methods, thus highlighting the good inclusion of oil inside the polymeric network. The plasticizing action of the oil induced a lean improvement of the interfacial adhesion between hydrophobic PLA and hydrophilic TPS, particularly accentuated in PLA80_ECO composition, as evidenced by morphological analysis of blend fracture surfaces. TGA data underlined that, differently from TPS-based films, PLA-based systems followed one degradative thermal profile suggesting a slight compatibilization effect of epoxidized oil in these films. The shifting of Tg values, by differential scanning calorimetry (DSC) analysis, indicated a weak miscibility at molecular level. Generally, in the investigated blends, the phase separation between PLA and TPS polymers was responsible for the mechanical properties failing, in particular, the tensile strength evidenced a negative deviation from the rule of mixtures, particularly marked in TPS-based blends, where no physical entanglements occurred between the polymers since their immiscibility even in presence of ECO. The epoxidized oil strongly improved the barrier properties (water vapor permeability (WVP) and oxygen permeability (O2P)) of all the films, likely developing a physical barrier to water and oxygen diffusion and solubilization. With respect to neat PLA, PL80 and PL80_ECO films evidenced the improvement of surface wettability, due to the presence of polar groups both in TPS (hydroxyl residues) and in epoxidized oil (oxirane rings). Finally, following to the conditioning in climatic chamber at T = 25 &deg, C and RH = 50%, PLA80 film became opaque due to TPS water absorption, causing a light transmittance decreasing, as evidenced by spectral optical analysis.

Published
2019

26. Evaluation of Machine Learning Classification Models for False-Positive Reduction in Prostate Cancer Detection Using MRI Data.

Author

Rippa M, Schulze R, Kenyon G, Himstedt M, Kwiatkowski M, Grobholz R, Wyler S, Cornelius A, Schindera S, and Burn F

Abstract

In this work, several machine learning (ML) algorithms, both classical ML and modern deep learning, were investigated for their ability to improve the performance of a pipeline for the segmentation and classification of prostate lesions using MRI data. The algorithms were used to perform a binary classification of benign and malignant tissue visible in MRI sequences. The model choices include support vector machines (SVMs), random decision forests (RDFs), and multi-layer perceptrons (MLPs), along with radiomic features that are reduced by applying PCA or mRMR feature selection. Modern CNN-based architectures, such as ConvNeXt, ConvNet, and ResNet, were also evaluated in various setups, including transfer learning. To optimize the performance, different approaches were compared and applied to whole images, as well as gland, peripheral zone (PZ), and lesion segmentations. The contribution of this study is an investigation of several ML approaches regarding their performance in prostate cancer (PCa) diagnosis algorithms. This work delivers insights into the applicability of different approaches for this context based on an exhaustive examination. The outcome is a recommendation or preference for which machine learning model or family of models is best suited to optimize an existing pipeline when the model is applied as an upstream filter.

Published
2024
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27. Infrared Thermography Monitoring of Durum and Common Wheat for Adaptability Assessing and Yield Performance Prediction.

Author

Rippa M, Di Mola I, Ottaiano L, Cozzolino E, Mormile P, and Mori M

Abstract

Wheat is one of the most cultivated cereals thanks to both its nutritional value and its versatility to technological transformation. Nevertheless, the growth and yield of wheat, as well as of the other food crops, can be strongly limited by many abiotic and biotic stress factors. To face this need, new methodological approaches are required to optimize wheat cultivation from both a qualitative and quantitative point of view. In this context, crop analysis based on imaging techniques has become an important tool in agriculture. Thermography is an appealing method that represents an outstanding approach in crop monitoring, as it is well suited to the emerging needs of the precision agriculture management strategies. In this work, we performed an on-field infrared monitoring of several durum and common wheat varieties to evaluate their adaptability to the internal Mediterranean area chosen for cultivation. Two new indices based on the thermal data useful to estimate the agronomical response of wheat subjected to natural stress conditions during different phenological stages of growth have been introduced. The comparison with some productive parameters collected at harvest highlighted the correlation of the indices with the wheat yield (ranging between p < 0.001 and p < 0.05), providing interesting information for their early prediction.

Published
2024
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28. Integrating Smart Greenhouse Cover, Reduced Nitrogen Dose and Biostimulant Application as a Strategy for Sustainable Cultivation of Cherry Tomato.

Author

Paradiso R, Di Mola I, Ottaiano L, Cozzolino E, Pelosi ME, Rippa M, Mormile P, and Mori M

Abstract

Fruit yield and quality of greenhouse tomatoes are strongly influenced by light conditions and nitrogen (N) availability, however, the interaction between these factors is still unclear. We evaluated the effects on cherry tomatoes of two tunnel plastic covers with different optical properties and three N doses, also in combination with a biostimulant treatment. We compared a diffuse light film (Film1) and a conventional clear film (Film2), and three N levels, corresponding to 50% (N50), 75% (N75) and 100% (N100) of the optimal dose, with and without a microbial plus a protein hydrolysed biostimulant, compared to a non-treated control. The three experimental treatments significantly interacted on several yield and quality parameters. In control plants (untreated with biostimulants), the early yield was higher at reduced N doses compared to N100, with greater increments under the diffusive Film1 compared to the clear Film2 (+57.7% and +37.0% vs. +31.7% and +16.0%, in N50 and N75 respectively). Film1 boosted the total fruit production at all the N rates and with or without biostimulants, compared to Film2, with stronger effects under sub-optimal N (+29.4% in N50, +21.2% in N75, and +7.8% in N100, in plants untreated with biostimulant). Total yield decreased with decreasing N levels, while it always increased with the application of biostimulants, which counterbalanced the detrimental effects of N shortage. Quality traits were mainly affected by the cover film and the biostimulant treatment. The diffusive film increased the content of carotenoids, lycopene and total phenols compared to the clear one, and the biostimulants increased texture, soluble solids, phenols and ascorbic acid compared to the untreated control. It is worth noting that in plants fertilized at 75% of the reference N dose, the biostimulants determined higher yield than the N100 untreated control, under both the covers (+48% in Film1 and +20% in Film2). In conclusion, the diffusive film improved the fruit yield and quality of greenhouse tomatoes in the spring-summer period, presumably avoiding plant stress due to high-intensity direct light. Reduced N rates limited the plant productivity, however, the biostimulant application was effective in compensating for the detrimental effects of sub-optimal supply of N synthetic fertilizers.

Published
2024
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29. Biotechnological Production and Characterization of Extracellular Melanin by Streptomyces nashvillensis .

Author

Restaino OF, Manini P, Kordjazi T, Alfieri ML, Rippa M, Mariniello L, and Porta R

Abstract

Melanins are pigments employed in food, cosmetic, and textile industries, manufactured by extraction from cuttlefishes. Their biotechnological production by Streptomycetes, instead, has been poorly investigated so far. In this paper, for the first time, the strain Streptomyces nashvillensis DSM 40314 was tested as an extracellular melanin producer by investigating the influence of diverse temperatures (26, 28, and 30 °C) and pH values (6.0 and 7.0) on bacterial growth, melanin production, and on the activity of the secreted tyrosinase, the first enzyme of the pigment biosynthetic pathway. In physiological 96-h shake flask experiments, the optimal growth parameters resulted to be 28 °C and pH 7.0, at which a maximum biomass of 8.4 ± 0.5 g cdw /L, a melanin concentration of 0.74 ± 0.01 g/L (yield on biomass of 0.09 ± 0.01 g/g cdw and productivity of 0.008 ± 0.001 g/L/h), and a final tyrosinase activity of 10.1 ± 0.1 U/mL were reached. The produced pigment was purified from the broth supernatant with a two-step purification process (75.0 ± 2.0% of purity with 65.0 ± 5.0% of recovery) and tested for its chemical, antioxidant, and photoprotective properties. Finally, characterization by UV-visible and FT-IR spectroscopy, elemental analyses, and mono- and bi-dimensional NMR suggested the eumelanin-like nature of the pigment.

Published
2024
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30. The Label-Free Detection and Identification of SARS-CoV-2 Using Surface-Enhanced Raman Spectroscopy and Principal Component Analysis.

Author

Zhou L, Vestri A, Marchesano V, Rippa M, Sagnelli D, Picazio G, Fusco G, Han J, Zhou J, and Petti L

Subjects
Humans, Spectrum Analysis, Raman methods, SARS-CoV-2, Principal Component Analysis, Gold chemistry, Metal Nanoparticles chemistry, COVID-19 diagnosis
Abstract

The World Health Organization (WHO) declared in a May 2023 announcement that the COVID-19 illness is no longer categorized as a Public Health Emergency of International Concern (PHEIC); nevertheless, it is still considered an actual threat to world health, social welfare and economic stability. Consequently, the development of a convenient, reliable and affordable approach for detecting and identifying SARS-CoV-2 and its emerging new variants is crucial. The fingerprint and signal amplification characteristics of surface-enhanced Raman spectroscopy (SERS) could serve as an assay scheme for SARS-CoV-2. Here, we report a machine learning-based label-free SERS technique for the rapid and accurate detection and identification of SARS-CoV-2. The SERS spectra collected from samples of four types of coronaviruses on gold nanoparticles film, fabricated using a Langmuir-Blodgett self-assembly, can provide more spectroscopic signatures of the viruses and exhibit low limits of detection (<100 TCID 50 /mL or even <10 TCID 50 /mL). Furthermore, the key Raman bands of the SERS spectra were systematically captured by principal component analysis (PCA), which effectively distinguished SARS-CoV-2 and its variant from other coronaviruses. These results demonstrate that the combined use of SERS technology and PCA analysis has great potential for the rapid analysis and discrimination of multiple viruses and even newly emerging viruses without the need for a virus-specific probe.

Published
2023
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31. Infrared Imaging Analysis of Green Composite Materials during Inline Quasi-Static Flexural Test: Monitoring by Passive and Active Approaches.

Author

Rippa M, Pagliarulo V, Napolitano F, Valente T, and Russo P

Abstract

Composite materials have been used for many years in a wide variety of sectors starting from aerospace and nautical up to more commonly used uses such as bicycles, glasses, and so on. The characteristics that have made these materials popular are mainly their low weight, resistance to fatigue, and corrosion. In contrast to the advantages, however, it should be noted that the manufacturing processes of composite materials are not eco-friendly, and their disposal is rather difficult. For these reasons, in recent decades, the use of natural fibers has gained increasing attention, allowing the development of new materials sharing the same advantages with conventional composite systems while respecting the environment. In this work, the behavior of totally eco-friendly composite materials during flexural tests has been studied through infrared (IR) analysis. IR imaging is a well-known non-contact technique and represents a reliable means of providing low-cost in situ analysis. According to this method, the surface of the sample under investigation is monitored, under natural conditions or after heating, by recording thermal images with an appropriate IR camera. Here, the results achieved for jute- and basalt-based eco-friendly composites through the use of both passive and active IR imaging approaches are reported and discussed, showing the possibilities of use also in an industrial environment.

Published
2023
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32. Active vs. Passive Thermal Imaging for Helping the Early Detection of Soil-Borne Rot Diseases on Wild Rocket [ Diplotaxis tenuifolia (L.) D.C.].

Author

Rippa M, Pasqualini A, Curcio R, Mormile P, and Pane C

Abstract

Cultivation of wild rocket [ Diplotaxis tenuifolia (L.) D.C.] as a baby-leaf vegetable for the high-convenience food chain is constantly growing due to its nutritional and taste qualities. As is well known, these crops are particularly exposed to soil-borne fungal diseases and need to be effectively protected. At present, wild rocket disease management is performed by using permitted synthetic fungicides or through the application of agro-ecological and biological methods that must be optimized. In this regard, the implementation of innovative digital-based technologies, such as infrared thermography (IT), as supporting systems to decision-making processes is welcome. In this work, leaves belonging to wild rocket plants inoculated with the soil-borne pathogens Rhizoctonia solani Kühn and Sclerotinia sclerotiorum (Lib.) de Bary were analyzed and monitored by both active and passive thermographic methods and compared with visual detection. A comparison between the thermal analysis carried out in both medium (MWIR)- and long (LWIR)-wave infrared was made and discussed. The results achieved highlight how the monitoring based on the use of IT is promising for carrying out an early detection of the rot diseases induced by the investigated pathogens, allowing their detection in 3-6 days before the canopy is completely wilted. Active thermal imaging has the potential to detect early soil-borne rotting diseases.

Published
2023
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33. Bioactive Compounds and Antioxidant Properties of Wild Rocket ( Diplotaxis Tenuifolia L.) Grown under Different Plastic Films and with Different UV-B Radiation Postharvest Treatments.

Author

Romano R, Pizzolongo F, De Luca L, Cozzolino E, Rippa M, Ottaiano L, Mormile P, Mori M, and Di Mola I

Abstract

Rocket species are rich in nutrients with well-known bioactive activity, but their content depends on several factors, such as plant-UV radiation interaction. In this work, we measured the production of nutritional elements in wild rocket ( Diplotaxis tenuifolia L.) leaves as a function of exposure to UV-B radiation by adopting a combined approach. The wild rocket plants were grown under three greenhouse cover films (A, B, and C) having different transmittivity to UV-B and the fresh-cut leaves were exposed to UV-B in postharvest for 45, 150, 330, and 660 s. The content of chlorophyll, carotenoids, phenolic compounds, ascorbic acid, and the antioxidant activity were determined. Chlorophyll, carotenoids, and total phenolic content were significantly increased by the combination of Film C and treatment with UV-B for 45 s. The predominant phenolic compounds were kaempferol, isorhamnetin, and quercetin. Film C also elicited an increase in ascorbic acid (the most abundant antioxidant compound in the range 374-1199 per 100 g of dry matter) and antioxidant activity. These findings highlighted an increase in bioactive compound content in the wild rocket when it was cultivated under Film C (diffused light film with a tailored UV-B transmission dose) and treated with UV-B radiation for 45 s postharvest, corresponding to an energy dose of 0.2 KJ m -2 .

Published
2022
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34. Development of LCEs with 100% Azobenzene Moieties: Thermo-Mechanical Phenomena and Behaviors.

Author

Sagnelli D, Rippa M, D'Avino A, Vestri A, Marchesano V, and Petti L

Abstract

Azobenzene is one of the most investigated photo-responsive liquid crystalline molecules. It can isomerize between two different isoforms, trans (E) and cis (Z) configurations, when stimulated by light. It is used as a molecular engine in photo-mobile materials (PMPs). The use of liquid crystals (LCs) as building blocks enhances the mechanical properties of the PMPs. It is not easy to obtain PMPs with monodomain configurations when the LCs are 100% azobenzene. In this work, we studied three LC mixtures, describing the thermo/mechanical phenomena that regulate the actuation of such materials. The nematic temperature of the LC elastomers was measured and the PMPs carefully characterized for their bending and speed capability. Our finding suggests that the ratio between linear and cross-linker monomer greatly influences the nematic temperature of the mixture. Furthermore, 100% azobenzene materials polymerized using dicumyl peroxide can be useful to design polarization-selective switches., Competing Interests: The authors declare no conflicts of interest.

Published
2022
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35. DNA Antiadhesive Layer for Reusable Plasmonic Sensors: Nanostructure Pitch Effect.

Author

Trojanowicz RK, Vestri A, Rippa M, Zyss J, Matczyszyn K, and Petti L

Abstract

A long-term reusable sensor that provides the opportunity to easily regenerate the active surface and minimize the occurrence of undesired absorption events is an appealing solution that helps to cut down the costs and improve the device performances. Impressive advances have been made in the past years concerning the development of novel cutting-edge sensors, but the reusability can currently represent a challenge. Direct shielding of the sensor surface is not always applicable, because it can impact the device performance. This study reports an antiadhesive layer (AAL) made of 90 mg/mL DNA sodium salt from salmon testes (ssstDNA) for passivating gold plasmonic sensor surfaces. Our gold two-dimensional (2D) nanostructured plasmonic metasurfaces modified with AAL were used for DNA quantification. AAL is thin enough that the plasmonic sensor remains sensitive to subsequent deposition of DNA, which serves as an analyte. AAL protects the gold surface from unwanted nonspecific adsorption by enabling wash-off of the deposited analyte after analysis and thus recovery of the LSPR peak position (rLSPR). The calibration curve obtained on a single nanostructure (Achiral Octupolar, 100 nm pitch) gave an LOD = 105 ng/mL and an extraordinary dynamic range, performances comparable or superior to those of commercial UV-vis spectrometers for acid nucleic dosage. Two different analytes were tested: ssstDNA (∼2000 bp) in deionized water and double-strand DNA (dsDNA) of 546-1614 bp in 100 mM Tris buffer and 10 mM MgCl 2 . The two nanostructures (Achiral Octupolar 25 and 100) were found to have the same sensitivity to DNA in deionized water but different sensitivity to DNA in a salt/buffer solution, opening a potential for solute discrimination. To the best of our knowledge, this is the first report on the use of AAL made of several kilobase-pairs-long dsDNA to produce a reusable plasmonic sensor. The working principle and limitations are drawn based on the LSPR and SERS study., Competing Interests: The authors declare no competing financial interest., (© 2022 The Authors. Published by American Chemical Society.)

Published
2022
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36. Monitoring of the copper persistence on plant leaves using pulsed thermography.

Author

Rippa M, Battaglia V, Cermola M, Sicignano M, Lahoz E, and Mormile P

Subjects
Environmental Monitoring, Plant Leaves, Thermography, Copper pharmacology, Fungicides, Industrial
Abstract

Copper-based fungicides are largely used in agriculture in the control of a wide range of plant diseases. Applied on plants, they remain deposited on leaf surfaces and are not absorbed into plant tissues. Because of accumulation problems and their ecotoxicological profiles in the soil, their use needs to be monitored and controlled, also by using modern technologies to better optimize the efficacy rendering minimum the amount of copper per season used. In this work, we test a novel approach based on pulsed thermography to evaluate the persistence of the copper on plant leaves so that the time between two applications should be the minimum needs. We monitored the thermal response observed on different treatments of both grapevine and tobacco plants over a 3-week period. Our experimental results demonstrate that the new methodological approach based on pulsed thermography can be an effective tool to evaluate in real time the presence of copper on differently treated plants allowing a tentative quantification and, therefore, to optimize its use in the agricultural practices, according also to the European Regulation n. 1107/2009., (© 2022. The Author(s).)

Published
2022
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37. Photo-Responsivity Improvement of Photo-Mobile Polymers Actuators Based on a Novel LCs/Azobenzene Copolymer and ZnO Nanoparticles Network.

Author

Sagnelli D, Calabrese M, Kaczmarczyk O, Rippa M, Vestri A, Marchesano V, Kortsen K, Cuzzucoli Crucitti V, Villani F, Loffredo F, Borriello C, Nenna G, Cocca M, Ambrogi V, Matczyszyn K, Simoni F, and Petti L

Abstract

The efficiency of photomobile polymers (PMP) in the conversion of light into mechanical work plays a fundamental role in achieving cutting-edge innovation in the development of novel applications ranging from energy harvesting to sensor approaches. Because of their photochromic properties, azobenzene monomers have been shown to be an efficient material for the preparation of PMPs with appropriate photoresponsivity. Upon integration of the azobenzene molecules as moieties into a polymer, they act as an engine, allowing fast movements of up to 50 Hz. In this work we show a promising approach for integrating ZnO nanoparticles into a liquid crystalline polymer network. The addition of such nanoparticles allows the trapping of incoming light, which acts as diffusive points in the polymer matrix. We characterized the achieved nanocomposite material in terms of thermomechanical and optical properties and finally demonstrated that the doped PMP was better performing that the undoped PMP film.

Published
2021
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38. SERS Biosensor Based on Engineered 2D-Aperiodic Nanostructure for In-Situ Detection of Viable Brucella Bacterium in Complex Matrix.

Author

Rippa M, Castagna R, Sagnelli D, Vestri A, Borriello G, Fusco G, Zhou J, and Petti L

Abstract

Brucella is a foodborne pathogen globally affecting both the economy and healthcare. Surface Enhanced Raman Spectroscopy (SERS) nano-biosensing can be a promising strategy for its detection. We combined high-performance quasi-crystal patterned nanocavities for Raman enhancement with the use of covalently immobilized Tbilisi bacteriophages as high-performing bio-receptors. We coupled our efficient SERS nano-biosensor to a Raman system to develop an on-field phage-based bio-sensing platform capable of monitoring the target bacteria. The developed biosensor allowed us to identify Brucella abortus in milk by our portable SERS device. Upon bacterial capture from samples (10 4 cells), a signal related to the pathogen recognition was observed, proving the concrete applicability of our system for on-site and in-food detection.

Published
2021
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39. Large oncosomes overexpressing integrin alpha-V promote prostate cancer adhesion and invasion via AKT activation.

Author

Ciardiello C, Leone A, Lanuti P, Roca MS, Moccia T, Minciacchi VR, Minopoli M, Gigantino V, De Cecio R, Rippa M, Petti L, Capone F, Vitagliano C, Milone MR, Pucci B, Lombardi R, Iannelli F, Di Gennaro E, Bruzzese F, Marchisio M, Carriero MV, Di Vizio D, and Budillon A

Subjects
Animals, Cell Adhesion, Cell Line, Tumor, Epithelial-Mesenchymal Transition, Extracellular Vesicles metabolism, Gene Expression Regulation, Neoplastic, Humans, Male, Mice, Mice, Nude, Neoplasm Grading, Neoplasm Invasiveness, Neoplasm Transplantation, Prostatic Neoplasms metabolism, Proteomics methods, Up-Regulation, Extracellular Vesicles pathology, Integrin alphaV metabolism, Prostatic Neoplasms pathology, Proto-Oncogene Proteins c-akt metabolism
Abstract

Background: Molecular markers for prostate cancer (PCa) are required to improve the early definition of patient outcomes. Atypically large extracellular vesicles (EVs), referred as "Large Oncosomes" (LO), have been identified in highly migratory and invasive PCa cells. We recently developed and characterized the DU145R80 subline, selected from parental DU145 cells as resistant to inhibitors of mevalonate pathway. DU145R80 showed different proteomic profile compared to parental DU145 cells, along with altered cytoskeleton dynamics and a more aggressive phenotype., Methods: Immunofluorescence staining and western blotting were used to identify blebbing and EVs protein cargo. EVs, purified by gradient ultra-centrifugations, were analyzed by tunable resistive pulse sensing and multi-parametric flow cytometry approach coupled with high-resolution imaging technologies. LO functional effects were tested in vitro by adhesion and invasion assays and in vivo xenograft model in nude mice. Xenograft and patient tumor tissues were analyzed by immunohistochemistry., Results: We found spontaneous blebbing and increased shedding of LO from DU145R80 compared to DU145 cells. LO from DU145R80, compared to those from DU145, carried increased amounts of key-molecules involved in PCa progression including integrin alpha V (αV-integrin). By incubating DU145 cells with DU145R80-derived LO we demonstrated that αV-integrin on LO surface was functionally involved in the increased adhesion and invasion of recipient cells, via AKT. Indeed either the pre-incubation of LO with an αV-integrin blocking antibody, or a specific AKT inhibition in recipient cells are able to revert the LO-induced functional effects. Moreover, DU145R80-derived LO also increased DU145 tumor engraftment in a mice model. Finally, we identified αV-integrin positive LO-like structures in tumor xenografts as well as in PCa patient tissues. Increased αV-integrin tumor expression correlated with high Gleason score and lymph node status., Conclusions: Overall, this study is the first to demonstrate the critical role of αV-integrin positive LO in PCa aggressive features, adding new insights in biological function of these large EVs and suggesting their potential use as PCa prognostic markers.

Published
2019
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40. Novel hybrid organic/inorganic 2D quasiperiodic PC: from diffraction pattern to vertical light extraction.

Author

Petti L, Rippa M, Zhou J, Manna L, Zanella M, and Mormile P

Abstract

Recently, important efforts have been dedicated to the realization of a fascinating class of new photonic materials or metamaterials, known as photonic quasicrystals (PQCs), in which the lack of the translational symmetry is compensated by rotational symmetries not achievable by the conventional periodic crystals. As ever, more advanced functionality is demanded and one strategy is the introduction of non-linear and/or active functionality in photonic materials. In this view, core/shell nanorods (NRs) are a promising active material for light-emitting applications. In this article a two-dimensional (2D) hybrid a 2D octagonal PQC which consists of air rods in an organic/inorganic nanocomposite is proposed and experimentally demonstrated. The nanocomposite was prepared by incorporating CdSe/CdS core/shell NRs into a polymer matrix. The PQC was realized by electron beam lithography (EBL) technique. Scanning electron microscopy, far field diffraction and spectra measurements are used to characterize the experimental structure. The vertical extraction of the light, by the coupling of the modes guided by the PQC slab to the free radiation via Bragg scattering, consists of a narrow red emissions band at 690 nm with a full width at half-maximum (FWHM) of 21.5 nm. The original characteristics of hybrid materials based on polymers and colloidal NRs, able to combine the unique optical properties of the inorganic moiety with the processability of the host matrix, are extremely appealing in view of their technological impact on the development of new high performing optical devices such as organic light-emitting diodes, ultra-low threshold lasers, and non-linear devices.PACS: 81.07.Pr Organic-inorganic hybrid nanostructures, 81.16.-c Methods of nanofabrication and processing, 42.70.Qs Photonic band-gap materials.

Published
2011
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41. 6-Phosphogluconate dehydrogenase from Trypanosoma brucei. Kinetic analysis and inhibition by trypanocidal drugs.

Author

Hanau S, Rippa M, Bertelli M, Dallocchio F, and Barrett MP

Subjects
Animals, Arsenicals pharmacology, Hydrogen-Ion Concentration, Kinetics, Liver enzymology, Melarsoprol pharmacology, Sheep, Species Specificity, Suramin analogs & derivatives, Suramin pharmacology, Enzyme Inhibitors pharmacology, Phosphogluconate Dehydrogenase antagonists & inhibitors, Phosphogluconate Dehydrogenase metabolism, Trypanocidal Agents pharmacology, Trypanosoma brucei brucei enzymology
Abstract

The kinetics of 6-phosphogluconate dehydrogenase from Trypanosoma brucei was examined and compared to those of the same enzyme from lamb's liver. Variation of kinetic parameters as a function of pH suggests a chemical mechanism similar to other 6-phosphogluconate dehydrogenases. The comparison extended to a detailed analysis of the effect on enzyme activity by several inhibitors including the trypanocidal drugs suramin, melarsoprol and analogues of these compounds. The T. brucei enzyme differs significantly from its mammalian counterpart with respect to several inhibitors, particularly the substrate analogue 6-phospho-2-deoxygluconate and the coenzyme analogue adenosine 2',5'-bisphosphate which have respectively 170-fold and 40-fold higher affinity for the parasite enzyme.

Published
1996
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42. A role for the pyridine nitrogen of reduced triphosphopyridine-nucleotide in the mechanism of action of isocitrate dehydrogenase.

Author

Rippa M, Signorini M, and Dallochio F

Subjects
Animals, Binding Sites, Chromatography, Ion Exchange, Hydrogen-Ion Concentration, Ketoglutaric Acids, Kinetics, Myocardium enzymology, Nitrogen metabolism, Oxidation-Reduction, Protein Binding, Spectrophotometry, Ultraviolet, Swine, Tritium, Isocitrate Dehydrogenase metabolism, NADP metabolism
Published
1974
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48. A multiple role for the coenzyme in the mechanism of action of 6-phosphogluconate dehydrogenase. The oxidative decarbosylation of 2-deoxy-6-phosphogluconate.

Author

Rippa M, Signorini M, and Dallocchio F

Subjects
Carbon Isotopes, Chromatography, Ion Exchange, Decarboxylation, Glucose, Isocitrate Dehydrogenase, Ketones, Kinetics, Malate Dehydrogenase, NAD, Organophosphorus Compounds, Oxidation-Reduction, Pentoses, Phosphoric Acids, Protein Binding, Structure-Activity Relationship, Tritium, Candida enzymology, Gluconates, NADP, Phosphogluconate Dehydrogenase antagonists & inhibitors
Published
1973

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