Your search keyword '"Valentino, R."' showing total 88 results

1. Implementation of a slope stability method in the CRITERIA-1D agro-hydrological modeling scheme.

Author

Sannino, G., Tomei, F., Bittelli, M., Bordoni, M., Meisina, C., and Valentino, R.

Subjects

SOIL permeability, SOIL horizons, LANDSLIDES, SLOPE stability, SOIL moisture, SLOPES (Soil mechanics)

Abstract

This paper presents the implementation of a slope stability method for rainfall-induced shallow landslides in CRITERIA-1D, which is an agro-hydrological model based on Richards' equation for transient infiltration and redistribution processes. CRITERIA-1D can simulate the presence and development of roots and canopies over space and time, the regulation of transpiration activity based on real meteorological data, and the evaporation reduction caused by canopies. The slope can be considered composed of a multi-layered soil, leading to the possibility of simulating the bedrock and of setting an initial water table level. CRITERIA-1D can consider different soil horizons characterized by different hydraulic conductivities and soil water retention curves, thus allowing the simulation of capillarity barriers. The validation of the proposed physically based slope stability model was conducted through the simulation of the collected water content and water potential data of an experimental slope. The monitored slope is located close to Montuè, in the north-eastern sector of Oltrepò Pavese (northern Apennines—Italy). Just close to the monitoring station, a shallow landslide occurred in 2014 at a depth of around 100 cm. The results show the utility of agro-hydrological modeling schemes in modeling the antecedent soil moisture condition and in reducing the overestimation of landslides events detection, which is an issue for early warning systems and slope management related to rainfall-induced shallow landslides. The presented model can be used also to test different bioengineering solutions for slope stabilization, especially when data about rooting systems and plant physiology are known. [ABSTRACT FROM AUTHOR]

Published

2024

2. On the elastic anisotropy of the entropy-stabilized oxide (Mg, Co, Ni, Cu, Zn)O compound.

Author

Pitike, Krishna Chaitanya, Marquez-Rossy, Andres E., Flores-Betancourt, Alexis, Chen, De Xin, Santosh, KC, Cooper, Valentino R., and Lara-Curzio, Edgar

Subjects

ELASTICITY, ANISOTROPY, MAGNETIC coupling, OXIDES, COPPER-zinc alloys

Abstract

In this paper, we study the elastic properties of the entropy-stabilized oxide (Mg, Co, Ni, Cu, Zn)O using experimental and first principles techniques. Our measurements of the indentation modulus on grains with a wide range of crystallographic orientations of the entropy-stabilized oxide revealed a high degree of elastic isotropy at ambient conditions. First principles calculations predict mild elastic anisotropy for the paramagnetic structure, which decreases when the system is considered to be non-magnetic. When the antiferromagnetic state of CoO, CuO, and NiO is accounted for in the calculations, a slight increase in elastic anisotropy is observed, suggesting a coupling between magnetic ordering and the orientation dependent elastic properties. Furthermore, an examination of the local structure reveals that the isotropy is favored through local ionic distortions of Cu and Zn—due to their tendencies to form tenorite and wurtzite phases. The relationships between the elastic properties of the multicomponent oxide and those of its constituent binary oxides are reviewed. These insights open up new avenues for controlling isotropy for technological applications through tuning composition and structure in the entropy-stabilized oxide or the high-entropy compounds in general. [ABSTRACT FROM AUTHOR]

Published

2020

3. Local cation ordering in compositionally complex Ruddlesden–Popper n = 1 oxides.

Author

Jiang, Bo, Pitike, Krishna Chaitanya, Lin, De-Ye, Purdy, Stephen C., Wang, Xin, Zhao, Yafan, Zhang, Yuanpeng, Metz, Peter, Macias, Antonio, Meyer III, Harry M., Borisevich, Albina Y., Yan, Jiaqiang, Cooper, Valentino R., Bridges, Craig A., and Page, Katharine

Subjects

EXTENDED X-ray absorption fine structure, MONTE Carlo method, DISTRIBUTION (Probability theory), MOLECULAR dynamics

Abstract

The Ruddlesden–Popper (RP) layered perovskite structure is of great interest due to its inherent tunability, and the emergence and growth of the compositionally complex oxide (CCO) concept endows the RP family with further possibilities. Here, a comprehensive assessment of thermodynamic stabilization, local order/disorder, and lattice distortion was performed in the first two reported examples of lanthanum-deficient Lan+1BnO3n+1 (n = 1, B = Mg, Co, Ni, Cu, Zn) obtained via various processing conditions. Chemical short-range order (CSRO) at the B-site and the controllable excess interstitial oxygen (δ) in RP-CCOs are uncovered by neutron pair distribution function analysis. Reverse Monte Carlo analysis of the data, Metropolis Monte Carlo simulations, and extended x-ray absorption fine structure analysis implies a modest degree of magnetic element segregation on the local scale. Further, ab initio molecular dynamics simulations results obtained from special quasirandom structure disagree with experimentally observed CSRO but confirm Jahn–Teller distortion of CuO6 octahedra. These findings highlight potential opportunities to control local order/disorder and excess interstitial oxygen in layered RP-CCOs and demonstrate a high degree of freedom for tailoring application-specific properties. They also suggest a need for expansion of theoretical and data modeling approaches in order to meet the innate challenges of CCO and related high-entropy phases. [ABSTRACT FROM AUTHOR]

Published

2023

4. Design and Realization of Ohmic and Schottky Interfaces for Oxide Electronics.

Author

Zhang, Jie, Pai, Yun-Yi, Lapano, Jason, Mazza, Alessandro R., Lee, Ho Nyung, Moore, Rob G., Lawrie, Benjamin J., Ward, T. Zac, Eres, Gyula, Cooper, Valentino R., and Brahlek, Matthew

Subjects

SCHOTTKY effect, OXIDE electrodes, CHARGE transfer, SEMICONDUCTORS, TITANIUM oxides

Abstract

Understanding band alignment and charge transfer at complex oxide interfaces is critical to tailoring and utilizing their diverse functionality. Toward this goal, both Ohmic‐ and Schottky‐like charge transfers at oxide/oxide semiconductor/metal interfaces are designed and experimentally validated. A method for predicting band alignment and charge transfer in ABO3 perovskites is utilized, where previously established rules for simple semiconductors fail. The prototypical systems chosen are the rare class of oxide metals, SrBO3 with B = V–Ta, when interfaced with the multifaceted semiconducting oxide, SrTiO3. For B = Nb and Ta, it is confirmed that a large accumulation of charge occurs in SrTiO3 due to the higher energy Nb and Ta states relative to Ti. This gives rise to a high mobility metallic interface, which is an ideal epitaxial oxide/oxide Ohmic contact. On the contrary, for B = V, there is no charge transfer into the SrTiO3 interface, which serves as a highly conductive epitaxial gate metal. Going beyond these specific cases, this work opens the door to integrating the vast phenomena of ABO3 perovskites into a wide range of practical devices. [ABSTRACT FROM AUTHOR]

Published

2022

5. Observations on soil-atmosphere interactions after long-term monitoring at two sample sites subjected to shallow landslides.

Author

Bordoni, M., Bittelli, M., Valentino, R., Vivaldi, V., and Meisina, C.

Subjects

WATERLOGGING (Soils), LANDSLIDES, SOIL moisture, NONEQUILIBRIUM flow, METEOROLOGICAL precipitation, SOIL air, SOIL profiles

Abstract

Soil-atmosphere interaction has implications in different scientific research contexts and is increasingly investigated through field measurements. This paper reports a detailed description of interaction between shallow soil and atmosphere at two test sites in Oltrepò Pavese area (Northern Italy). The two test sites are in the same climatic area but are characterised by different geological features. In fact, the first objective is to compare the behaviour of two different soils, namely a clayey-sandy silt (CL) and a silty clay (CH), under similar meteorological events. Soil-atmosphere interaction is studied on the basis of long-term (about 87 and 42 months for the two test sites, respectively) monitoring data of both volumetric water content and soil water potential, recorded at different depths along two vertical soil profiles in the first two metres from ground level. Field measurements, together with meteorological data such as precipitation and air temperature, allow for clear identification of the seasonal fluctuations of unsaturated soil hydraulic properties. To infer detailed information, the recorded data were processed and relationships between soil water potential and water content were investigated. Different time spans, from several months to a few days, even including single rainy events, are considered to show the hydraulic soil behaviour. The hysteretic cycles of water content with respect to soil water potential and non-equilibrium flow are highlighted. In particular, the measured soil water potential is in the range of 0–800 kPa and of 0–1500 kPa for the CL and CH soil, respectively. At both sites, the observed hysteretic cycles are more frequent in the hot season (summer) than in the cold season (winter) and tend to reduce with depth. The experimental results are compared with the soil water characteristic curves (SWCCs) to assess whether and to what extent the SWCCs are reliable in modelling the hydraulic behaviour of partially saturated soils, under atmospheric forcing, at least in the considered climatic contexts. [ABSTRACT FROM AUTHOR]

Published

2021

6. van der Waals density functionals built upon the electron-gas tradition: Facing the challenge of competing interactions.

Author

Berland, Kristian, Arter, Calvin A., Cooper, Valentino R., Kyuho Lee, Lundqvist, Bengt I., Schröder, Elsebeth, Thonhauser, T., and Hyldgaard, Per

Subjects

VAN der Waals forces, DENSITY functional theory, ELECTRON gas, METAL-organic frameworks, GROUND state (Quantum mechanics)

Abstract

The theoretical description of sparse matter attracts much interest, in particular for those ground-state properties that can be described by density functional theory. One proposed approach, the van der Waals density functional (vdW-DF) method, rests on strong physical foundations and offers simple yet accurate and robust functionals. A very recent functional within this method called vdW-DF-cx [K. Berland and P. Hyldgaard, Phys. Rev. B 89, 035412 (2014)] stands out in its attempt to use an exchange energy derived from the same plasmon-based theory from which the nonlocal correlation energy was derived. Encouraged by its good performance for solids, layered materials, and aromatic molecules, we apply it to several systems that are characterized by competing interactions. These include the ferroelectric response in PbTiO3, the adsorption of small molecules within metal-organic frameworks, the graphite/diamond phase transition, and the adsorption of an aromatic-molecule on the Ag(111) surface. Our results indicate that vdW-DF-cx is overall well suited to tackle these challenging systems. In addition to being a competitive density functional for sparse matter, the vdWDF- cx construction presents a more robust general-purpose functional that could be applied to a range of materials problems with a variety of competing interactions. [ABSTRACT FROM AUTHOR]

Published

2014

7. Tuning Fermi Levels in Intrinsic Antiferromagnetic Topological Insulators MnBi2Te4 and MnBi4Te7 by Defect Engineering and Chemical Doping.

Author

Du, Mao‐Hua, Yan, Jiaqiang, Cooper, Valentino R., and Eisenbach, Markus

Subjects

TOPOLOGICAL insulators, METALLIC surfaces, SEMIMETALS, CHEMICAL engineering, FERMI level, ANTIFERROMAGNETIC materials, MAGNETIC insulators, ANTISITE defects

Abstract

MnBi2Te4 and MnBi4Te7 are intrinsic antiferromagnetic topological insulators, offering a promising materials platform for realizing exotic topological quantum states. However, high densities of intrinsic defects in these materials not only cause bulk metallic conductivity, preventing the measurement of quantum transport in surface states, but may also affect magnetism and topological properties. In this paper, systematic density functional theory calculations reveal specific material chemistry and growth conditions that determine the defect formation and dopant incorporation in MnBi2Te4 and MnBi4Te7. The large strain induced by the internal heterostructure promotes the formation of large‐size‐mismatched antisite defects and substitutional dopants. The results here show that the abundance of antisite defects is responsible for the observed n‐type metallic conductivity. A Te‐rich growth condition is predicted to reduce the bulk free electron density, which is confirmed by experimental synthesis and transport measurements in MnBi2Te4. Furthermore, Na doping is proposed to be an effective acceptor dopant to pin the Fermi level within the bulk band gap to enable the observation of surface quantum transport. The defect engineering and doping strategies proposed here should stimulate further studies for improving synthesis and for manipulating magnetic and topological properties in MnBi2Te4, MnBi4Te7, and related magnetic topological insulators. [ABSTRACT FROM AUTHOR]

Published

2021

8. Bettye Washington Greene: An Industrial Chemist and Inventor Who Lit a Path for Innovation.

Author

Brundidge, Clinique and Cooper, Valentino R.

Subjects

CHEMISTS, INVENTORS

Published

2022

9. An application of the van der Waals density functional: Hydrogen bonding and stacking interactions between nucleobases.

Author

Cooper, Valentino R., Thonhauser, T., and Langreth, David C.

Subjects

VAN der Waals forces, HYDROGEN bonding, QUANTUM chemistry, MATHEMATICAL transformations, MECHANICAL buckling, PHYSICAL sciences

Abstract

We apply the van der Waals density functional (vdW-DF) to study hydrogen bonding and stacking interactions between nucleobases. The excellent agreement of our results with high level quantum chemical calculations highlights the value of the vdW-DF for first-principles investigations of biologically important molecules. Our results suggest that, in the case of hydrogen-bonded nucleobase pairs, dispersion interactions reduce the cost of propeller twists while having a negligible effect on buckling. Furthermore, the efficient scaling of DFT methods allowed for the easy optimization of separation distance between nucleobase stacks, indicating enhancements in the interaction energy of up to 3 kcal/mol over previous fixed distance calculations. We anticipate that these results are significant for extending the vdW-DF method to model larger vdW complexes and biological molecules. [ABSTRACT FROM AUTHOR]

Published

2008

10. The effect of octahedral tilting on proton binding sites and transition states in pseudo-cubic perovskite oxides.

Author

Gomez, Maria A., Griffin, Mary A., Jindal, Saryu, Rule, Kristin D., and Cooper, Valentino R.

Subjects

BIOCHEMISTRY, OXIDE minerals, PEROVSKITE, ELECTROCHEMISTRY, CONSTRUCTION materials, FUEL cells

Abstract

Proton conducting oxide ceramics have shown potential for use in fuel cell technologies. Understanding the energy pathways for proton conduction could help us design more efficient fuel cell materials. This paper describes how octahedral tilting affects the relative energies of proton binding sites, transition states, and conduction pathways in cubic and pseudo-cubic perovskites. First, the structure for cubic and pseudo-cubic forms of BaTiO3, BaZrO3, CaTiO3, and CaZrO3, is found. Even when cubic symmetry is enforced, CaTiO3, and CaZrO3 exhibit octahedral tilting distortions characteristic of orthorhombic phases while BaTiO3 and BaZrO3 remain undistorted. Octahedral tilting gives rise to proton binding sites facilitating inter- and intra-octahedral proton transfer while the proton binding sites of undistorted perovskites facilitate only intra-octahedral proton transfer. The nudged elastic band method is used to find minimum energy paths between the proton binding sites. As distortions increase, inter-octahedral proton transfer barriers decrease while intra-octahedral proton transfer barriers increase. Concurrently, rotational barriers from oxygens facilitating inter-octahedral proton transfer increase while rotational barriers from oxygens facilitating intra-octahedral proton transfer decrease. Intra-octahedral transfer is the rate-limiting step to the lowest energy extended proton conduction pathway in all the perovskites considered. [ABSTRACT FROM AUTHOR]

Published

2005

11. Biomechanical Effects of Different Auxiliary-Aligner Designs for the Extrusion of an Upper Central Incisor: A Finite Element Analysis.

Author

Savignano, R., Valentino, R., Razionale, A. V., Michelotti, A., Barone, S., and D'Antò, V.

Subjects

FINITE element method, CONE beam computed tomography, INCISORS

Abstract

Aim. To evaluate the biomechanical effects of four different auxiliary-aligner combinations for the extrusion of a maxillary central incisor and to define the most effective design through finite element analysis (FEA). Materials and Methods. A full maxillary arch (14 teeth) was modelled by combining two different imaging techniques: cone beam computed tomography and surface-structured light scan. The appliance and auxiliary element geometries were created by exploiting computer-aided design (CAD) procedures. The reconstructed digital models were imported within the finite element solver (Ansys® 17). For the extrusion movement, the authors compared the aligner without an attachment with three auxiliary-aligner designs: a rectangular palatal attachment, a rectangular buccal attachment, and an ellipsoid buccal attachment. The resulting force-moment (MF) system delivered by the aligner to the target tooth and the tooth displacement were calculated for each scenario. Results. The maximum tooth displacement along the z-axis (0.07 mm) was obtained with the rectangular palatal attachment, while the minimum (0.02 mm) was obtained without any attachments. With the ellipsoid attachment, the highest undesired moments Mx and My were found. The rectangular palatal attachment showed the highest Fz (2.0 N) with the lowest undesired forces (Fx = 0.4 N; Fy = −0.2 N). Conclusions. FEA demonstrated that the rectangular palatal attachment can improve the effectiveness of the appliance for the extrusion of an upper central incisor. [ABSTRACT FROM AUTHOR]

Published

2019

12. Discovery of ABO3 perovskites as thermal barrier coatings through high-throughput first principles calculations.

Author

Liu, Yuchen, Cooper, Valentino R., Wang, Banghui, Xiang, Huimin, Li, Qian, Gao, Yanfeng, Yang, Jiong, Zhou, Yanchun, and Liu, Bin

Subjects

PEROVSKITE, THERMAL barrier coatings, OXIDE minerals, THERMAL properties, CRYSTAL structure

Abstract

High-throughput first-principles calculations are performed on ABO3 perovskites for new thermal barrier coating (TBC) materials. We present systematic investigations comprised of multiple selection criteria to achieve the prediction of target materials. A database including mechanical/thermal properties of 190 perovskites is initially established. Six perovskites are proposed as novel TBC materials with predicted thermal conductivities under 1.25 W/(m·K) and good damage tolerance. The observed anisotropy of thermal conductivity provides possibilities for the performance controlling via the growth orientation design. The adopted strategy and established database are expected to inspire the design of ABO3-based TBC materials and future structural material investigations. An investigation strategy for ceramics based on high-throughput calculations is constructed. Six perovskite oxides are predicted as new thermal barrier coating materials based on the established property database of perovskites. [ABSTRACT FROM AUTHOR]

Published

2019

13. Tuning oxygen electrocatalysis via strain on LaNiO3(001).

Author

Yuk, Simuck F. and Cooper, Valentino R.

Abstract

The slow kinetics of the oxygen evolution (OER) and oxygen reduction (ORR) reactions hamper the development of renewable energy storage and conversion technologies. Transition-metal oxides (TMOs) are cost-effective replacements to conventional noble metal catalysts for driving these electrochemical systems. Strain is known to greatly affect the electronic structure of TMO surfaces, leading to significant changes in their electrocatalytic activities. In this study, we explore the influence of strain on the OER and ORR mechanisms on the LaNiO3(001) surface using density functional theory (DFT). Through a comparison of the overpotential and the largest change in Gibbs free energy (ΔG) in the reaction pathway, we determined that the OER activity on the LaNiO3 surface is directly related to the desorption of –H from the surface, which can be tuned as a function of strain. Moreover, tensile strain shuts off the reaction pathway to forming the –O2H intermediate state, due to the dissociation of –O2H into –O2 and –H. This is largely a consequence of the strong binding of H to the surface O, leading to a significant increase in the largest ΔG for the ORR on the tensile-strained surfaces by promoting an alternative reaction pathway. Overall, our results show that tensile strain on LaNiO3(001) leads to a decrease in both OER and ORR activities. Interestingly, in both cases, we find that the reaction is driven by the interactions with surface O ions, thus calling for a reinterpretation of the role that Ni eg orbital polarization plays in defining the OER and ORR catalytic activity on the TMO surfaces. Here, it is an indirect measure of changes in Ni–O hybridization, which controls the binding of –H species to the surface. As such, these results highlight the importance of surface O ions; particularly as it relates to defining molecule–surface interactions that ultimately tune and enhance the electrocatalytic efficiency of perovskite materials through the modulation of strains. [ABSTRACT FROM AUTHOR]

Published

2019

14. Electrical Transition in Isostructural VO2 Thin-Film Heterostructures.

Author

Moatti, Adele, Sachan, Ritesh, Cooper, Valentino R, and Narayan, Jagdish

Published

2019

15. Emerging edge states on the surface of the epitaxial semimetal CuMnAs thin film.

Author

Nguyen, Giang D., Pitike, Krishna Chaitanya, Wadley, Peter, Cooper, Valentino R., Yoon, Mina, Berlijn, Tom, and Li, An-Ping

Subjects

THIN films, SURFACE states, SCANNING tunneling microscopy, SURFACE reconstruction, DENSITY functional theory

Abstract

Epitaxial thin films of CuMnAs have recently attracted attention due to their potential to host relativistic antiferromagnetic spintronics and exotic topological physics. Here, we report on the structural and electronic properties of a tetragonal CuMnAs thin film studied using scanning tunneling microscopy (STM) and density functional theory (DFT). STM reveals a surface terminated by As atoms, with the expected semi-metallic behavior. An unexpected zigzag step edge surface reconstruction is observed with emerging electronic states below the Fermi energy. DFT calculations indicate that the step edge reconstruction can be attributed to an As deficiency that results in changes in the density of states of the remaining As atoms at the step edge. This understanding of the surface structure and step edges on the CuMnAs thin film will enable in-depth studies of its topological properties and magnetism. [ABSTRACT FROM AUTHOR]

Published

2020

16. Soil Water Content Estimated by Support Vector Machine for the Assessment of Shallow Landslides Triggering: the Role of Antecedent Meteorological Conditions.

Author

Bordoni, Massimiliano, Bittelli, M., Valentino, R., Chersich, S., Persichillo, M. G., and Meisina, C.

Subjects

LANDSLIDES, SOIL moisture, RAINFALL, ATMOSPHERIC temperature, SUPPORT vector machines, SOLAR radiation

Abstract

Soil water content is a key parameter for representing water dynamics in soils. Its prediction is fundamental for different practical applications, such as identifying shallow landslides triggering. Support vector machine (SVM) is a machine learning technique, which can be used to predict the temporal trend of a quantity since training from past data. SVM was applied to a test slope of Oltrepò Pavese (northern Italy), where meteorological parameters coupled with soil water content at different depths (0.2, 0.4, 0.6, 1.0, 1.2, 1.4 m) were measured. Two SVM models were developed for water content assessment: (i) model 1, considering rainfall amount, air temperature, air humidity, net solar radiation, and wind speed; (ii) model 2, considering the same predictors of model 1 together with antecedent condition parameters (cumulated rainfall of 7, 30, and 60 days; mean air temperature of 7, 30, and 60 days). SVM model 2 showed significantly higher satisfactory results than model 1, for both training and test phases and for all the considered soil levels. SVM models trends were implemented in a methodology of slope safety factor assessment. For a real event occurred in the tested slope, the triggering time was correctly predicted using data estimated by SVM model based on antecedent meteorological conditions. This confirms the necessity of including these predictors for building a SVM technique able to estimate correctly soil moisture dynamics in time. The results of this paper show a promising potential application of the SVM methodologies for modeling soil moisture required in slope stability analysis. [ABSTRACT FROM AUTHOR]

Published

2018

17. The impact of hydrological parameters on modelling slope safety factor towards shallow landslides: a case study from Oltrepò Pavese.

Author

Bordoni, M., Meisina, C., Valentino, R., Persichillo, M. G., Bittelli, M., and Chersich, S.

Published

2016

18. Suppression of Defects and Deep Levels Using Isoelectronic Tungsten Substitution in Monolayer MoSe2.

Author

Li, Xufan, Puretzky, Alexander A., Sang, Xiahan, KC, Santosh, Tian, Mengkun, Ceballos, Frank, Mahjouri‐Samani, Masoud, Wang, Kai, Unocic, Raymond R., Zhao, Hui, Duscher, Gerd, Cooper, Valentino R., Rouleau, Christopher M., Geohegan, David B., and Xiao, Kai

Subjects

SUBSTITUENTS (Chemistry), MOLYBDENUM selenides, TUNGSTEN, CHEMICAL synthesis, OPTOELECTRONIC devices

Abstract

Defects formed during chemical vapor deposition (CVD) of two-dimensional (2D) transition metal dichalcogenides (TMDs) currently limit their quality and optoelectronic properties. Effective synthesis and processing strategies to suppress defects and enhance the quality of 2D TMDs are urgently needed to enable next generation optoelectronic devices. In this work, isoelectronic doping is presented as a new strategy to form stable alloys and suppress defects and enhance photoluminescence (PL) in CVD-grown TMD monolayers. The isoelectronic substitution of W atoms for Mo atoms in CVD-grown monolayers of Mo1- x W x Se2 (0 < x < 0.18) is shown to effectively suppress Se vacancy concentration by 50% compared to those found in pristine MoSe2 monolayers, resulting in a decrease in defect-mediated nonradiative recombination, ≈10 times more intense PL, and an increase in the carrier lifetime by a factor of 3. Theoretical predictions reveal that isoelectronic W alloying to form Mo1- x W x Se2 monolayers raises the energy of deep level defects in MoSe2 to enable faster quenching, which is confirmed by low temperature (4-125 K) PL from defect-related localized states. Isoelectronic substitution therefore appears to be a promising synthetic method to control the heterogeneity of 2D TMDs to realize the scalable production of high performance optoelectronic and electronic devices. [ABSTRACT FROM AUTHOR]

Published

2017

19. Chloride-Reinforced Carbon Nanofiber Host as Effective Polysulfide Traps in Lithium-Sulfur Batteries.

Author

Fan, Lei, Zhuang, Houlong L., Zhang, Kaihang, Cooper, Valentino R., Li, Qi, and Lu, Yingying

Published

2016

20. First principles materials design of novel functional oxides.

Author

Cooper, Valentino R., Voas, Brian K., Bridges, Craig A., Morris, James R., and Beckman, Scott P.

Published

2016

21. Bisphenol A environmental exposure and the detrimental effects on human metabolic health: is it necessary to revise the risk assessment in vulnerable population?

Author

Valentino, R., D'Esposito, V., Ariemma, F., Cimmino, I., Beguinot, F., and Formisano, P.

Published

2016

22. Zika virus detection in urine from patients with Guillain-Barré syndrome on Martinique, January 2016.

Author

Rozé, B., Najioullah, F., Fergé, J., Apetse, K., Brouste, Y., Cesaire, R., Fagour, C., Fagour, L., Hochedez, P., Jeannin, S., Joux, J., Mehdaoui, H., Valentino, R., Signate, A., and Cabié, A.

Published

2016

23. Noninvasive continuous positive airway pressure in neutropenic patients with acute respiratory failure requiring intensive care unit admission.

Author

Hilbert G, Gruson D, Vargas F, Valentino R, Chene G, Boiron J, Pigneux A, Reiffers J, Gbikpi-Benissan G, Cardinaud J, Hilbert, G, Gruson, D, Vargas, F, Valentino, R, Chene, G, Boiron, J M, Pigneux, A, Reiffers, J, Gbikpi-Benissan, G, and Cardinaud, J P

Published

2000

24. Understanding Strain‐Induced Phase Transformations in BiFeO3 Thin Films.

Author

Dixit, Hemant, Beekman, Christianne, Schlepütz, Christian M., Siemons, Wolter, Yang, Yongsoo, Senabulya, Nancy, Clarke, Roy, Chi, Miaofang, Christen, Hans M., and Cooper, Valentino R.

Abstract

Experiments demonstrate that under large epitaxial strain a coexisting striped phase emerges in BiFeO3 thin films, which comprises a tetragonal‐like (T′) and an intermediate S′ polymorph. It exhibits a relatively large piezoelectric response when switching between the coexisting phase and a uniform T′ phase. This strain‐induced phase transformation is investigated through a synergistic combination of first‐principles theory and experiments. The results show that the S′ phase is energetically very close to the T′ phase, but is structurally similar to the bulk rhombohedral (R) phase. By fully characterizing the intermediate S′ polymorph, it is demonstrated that the flat energy landscape resulting in the absence of an energy barrier between the T′ and S′ phases fosters the above‐mentioned reversible phase transformation. This ability to readily transform between the S′ and T′ polymorphs, which have very different octahedral rotation patterns and c/a ratios, is crucial to the enhanced piezoelectricity in strained BiFeO3 films. Additionally, a blueshift in the band gap when moving from R to S′ to T′ is observed. These results emphasize the importance of strain engineering for tuning electromechanical responses or, creating unique energy harvesting photonic structures, in oxide thin film architectures. [ABSTRACT FROM AUTHOR]

Published

2015

25. Site-specific to local-scale shallow landslides triggering zones assessment using TRIGRS.

Author

Bordoni, M., Meisina, C., Valentino, R., Bittelli, M., and Chersich, S.

Subjects

RAINFALL, LANDSLIDES, SLOPE stability, SOIL science, GEOLOGICAL modeling, TILLAGE

Abstract

Rainfall-induced shallow landslides are common phenomena in many parts of the world, affecting cultivation and infrastructure and sometimes causing human losses. Assessing the triggering zones of shallow landslides is fundamental for land planning at different scales. This work defines a reliable methodology to extend a slope stability analysis from the site-specific to local scale by using a wellestablished physically based model (TRIGRS-unsaturated). The model is initially applied to a sample slope and then to the surrounding 13.4km² area in Oltrepò Pavese (northern Italy). To obtain more reliable input data for the model, longterm hydro-meteorological monitoring has been carried out at the sample slope, which has been assumed to be representative of the study area. Field measurements identified the triggering mechanism of shallow failures and were used to verify the reliability of the model to obtain pore water pressure trends consistent with those measured during the monitoring activity. In this way, more reliable trends have been modelled for past landslide events, such as the April 2009 event that was assumed as a benchmark. The assessment of shallow landslide triggering zones obtained using TRIGRS-unsaturated for the benchmark event appears good for both the monitored slope and the whole study area, with better results when a pedological instead of geological zoning is considered at the regional scale. The sensitivity analyses of the influence of the soil input data show that the mean values of the soil properties give the best results in terms of the ratio between the true positive and false positive rates. The scheme followed in this work allows us to obtain better results in the assessment of shallow landslide triggering areas in terms of the reduction in the overestimation of unstable zones with respect to other distributed models applied in the past. [ABSTRACT FROM AUTHOR]

Published

2015

26. Lattice strain effects in graphane and partially-hydrogenated graphene sheets.

Author

James, R. Morris, Frank, W. Averill, He, Haiyan, Pan, Bicai, Valentino, R. Cooper, and Peng, Lujian

Published

2009

27. Catalytic behavior at the nanoscale: CO adsorption on Al2O3-supported Pt clusters.

Author

Yourdshahyan, Yashar, Cooper, Valentino R., Kolpak, Alexie M., and Rappe, Andrew M.

Published

2003

28. Local Structure of PZT.

Author

Cooper, Valentino R., Grinberg, Ilya, Martin, Nathan R., and Rappe, Andrew M.

Subjects

PEROVSKITE, ALLOYS, LEAD compounds, PHASE transitions

Abstract

We have studied large supercells of PZT with different cation orderings and compositions using ab initio calculations. Despite the different macroscopic properties, we find similar structural motifs for all three phases. Our study shows that the polarization of PZT is mostly due to the displacement of the Pb cations, and that their displacements are sensitive to both the cation ordering and the overall macroscopic polarization of the material. This dual sensitivity drives the compositional phase transitions of PZT. [ABSTRACT FROM AUTHOR]

Published

2002

29. Transparent conducting oxides: A δ-doped superlattice approach.

Author

Cooper, Valentino R., Seo, Sung S. Ambrose, Suyoun Lee, Jun Sung Kim, Woo Seok Choi, Satoshi Okamoto, and Ho Nyung Lee

Subjects

METALLIC oxides, DOPED semiconductor superlattices, DENSITY functional theory, OPTICAL spectroscopy, VISIBLE spectra, HETEROSTRUCTURES

Abstract

Metallic states appearing at interfaces between dissimilar insulating oxides exhibit intriguing phenomena such as superconductivity and magnetism. Despite tremendous progress in understanding their origins, very little is known about how to control the conduction pathways and the distribution of charge carriers. Using optical spectroscopic measurements and density-functional theory (DFT) simulations, we examine the effect of SrTiO3 (STO) spacer layer thickness on the optical transparency and carrier distribution in La δ-doped STO superlattices. We experimentally observe that these metallic superlattices remain highly transparent to visible light; a direct consequence of the appropriately large gap between the O 2p and Ti 3d states. In superlattices with relatively thin STO layers, we predict that three-dimensional conduction would occur due to appreciable overlap of quantum mechanical wavefunctions between neighboring δ-doped layers. These results highlight the potential for using oxide heterostructures in optoelectronic devices by providing a unique route for creating novel transparent conducting oxides. [ABSTRACT FROM AUTHOR]

Published

2014

30. Composition dependent intrinsic defect structures in SrTiO3.

Author

Liu, Bin, Cooper, Valentino R., Xu, Haixuan, Xiao, Haiyan, Zhang, Yanwen, and Weber, William J.

Abstract

Intrinsic point defect complexes in SrTiO3 under different chemical conditions are studied using density functional theory. The Schottky defect complex consisting of nominally charged Sr, Ti and O vacancies is predicted to be the most stable defect structure in stoichiometric SrTiO3, with a relatively low formation energy of 1.64 eV per defect. In addition, the mechanisms of defect complex formation in nonstoichiometric SrTiO3 are investigated. Excess SrO leads to the formation of oxygen vacancies and a strontium–titanium antisite defect, while a strontium vacancy together with an oxygen vacancy and a titanium–strontium antisite defect are produced in an excess TiO2 environment. Since point defects, such as oxygen vacancies and cation antisite defects, are intimately related to the functionality of SrTiO3, these results provide guidelines for controlling the formation of intrinsic point defects and optimizing the functionality of SrTiO3 by controlling nonstoichiometric chemical compositions of SrO and TiO2 in experiments. [ABSTRACT FROM AUTHOR]

Published

2014

31. Growth-promoting action and growth factor release by different platelet derivatives.

Author

Passaretti, F., Tia, M., D'Esposito, V., Pascale, M. De, Corso, M. Del, Sepulveres, R., Liguoro, D., Valentino, R., Beguinot, F., Formisano, P., and Sammartino, G.

Subjects

BLOOD platelets, FIBRIN, FIBROBLASTS, CONNECTIVE tissue cells, GROWTH factors

Abstract

Platelet derivatives are commonly used in wound healing and tissue regeneration. Different procedures of platelet preparation may differentially affect growth factor release and cell growth. Preparation of platelet-rich fibrin (PRF) is accompanied by release of growth factors, including platelet-derived growth factor (PDGF), vascular endothelial growth factor (VEGF) and transforming growth factor β1 (TGFβ1), and several cytokines. When compared with the standard procedure for platelet-rich plasma (PRP), PRF released 2-fold less PDGF, but >15-fold and >2-fold VEGF and TGFβ1, respectively. Also, the release of several cytokines (IL-4, IL-6, IL-8, IL-10, IFNγ, MIP-1α, MIP-1β and TNFα) was significantly increased in PRF-conditioned medium (CM), compared to PRP-CM. Incubation of both human skin fibroblasts and human umbilical vein endothelial cells (HUVECs) with PRF-derived membrane (mPRF) or with PRF-CM enhanced cell proliferation by >2-fold ( p < 0.05). Interestingly, PRP elicited fibroblast growth at a higher extent compared to PRF. At variance, PRF effect on HUVEC growth was significantly greater than that of PRP, consistent with a higher concentration of VEGF in the PRF-CM. Thus, the procedure of PRP preparation leads to a larger release of PDGF, as a possible result of platelet degranulation, while PRF enhances the release of proangiogenic factors. [ABSTRACT FROM AUTHOR]

Published

2014

32. Theoretical studies of Ir 5 Th and Ir 5 Ce nanoscale precipitates in Ir.

Author

Morris, James R., Averill, Frank W., and Cooper, Valentino R.

Subjects

PRECIPITATION (Chemistry), NANOCHEMISTRY, THORIUM alloys, INTERFACE structures, NANOSTRUCTURES

Abstract

Experimentally, it is known that very small amounts of thorium and/or cerium added to iridium metal form a precipitate, Ir5Th/Ir5Ce, which improves the high-temperature mechanical properties of the resulting alloys. We demonstrate that there are low-energy configurations for nanoscale precipitates of these phases in Ir, and that these coherent arrangements may assist in producing improved mechanical properties. One precipitate/matrix orientation gives a particularly low interfacial energy, and a low lattice misfit. Nanolayer precipitates with this orientation are found to be likely to form with little driving force to coarsen. The predicted morphology of the precipitates and their orientation with the matrix phase provide a potential experiment that could be used to test these predictions. [ABSTRACT FROM AUTHOR]

Published

2014

33. Mechanical Aspects of Micropiles Made of Reinforced Polyurethane Resins.

Author

Valentino, R., Romeo, E., and Misra, A.

Subjects

MICRO-piling, POLYURETHANES, MATERIALS compression testing, MECHANICAL behavior of materials, MICROSTRUCTURE, INTERFACES (Physical sciences), SOIL mechanics

Abstract

The reinforcement of shallow foundations of existing buildings is often obtained by using micropiles constructed through different kinds of technologies. This paper deals with some mechanical and structural aspects of a kind of innovative micropiles made with reinforced polyurethane resin. Three sample micropiles having different characteristics were installed and tested under compression in a site where a silty-clayey soil was present. On the basis of the test results, it was possible to evaluate which of the three sample micropiles offered the higher strength under compression load. This type of micropile was chosen for a deeper analysis regarding the main features linked to both the global mechanical behavior and the frictional resistance between the soil and the shaft surface. After a brief description of the construction method and the execution of the field load tests, the paper investigates the microstructure of the interface between soil and micropile. Moreover, some physical properties of the constitutive elements of the micropile are evaluated with the scope of calibrating the parameters required for a model of the micropile-soil mechanical interaction, recently introduced. The model seems to be suitable to interpret the mechanical field behavior of the structural element. The results suggest that even though the reinforced polyurethane resin micropiles present a rather low bearing capacity, the technology can be useful for underpinning works in very particular conditions. [ABSTRACT FROM AUTHOR]

Published

2013

34. Comparison between different approaches to modeling shallow landslide susceptibility: a case history in Oltrepo Pavese, Northern Italy.

Author

Zizioli, D., Meisina, C., Valentino, R., and Montrasio, L.

Subjects

LANDSLIDES, RAINFALL, SLOPES (Physical geography), ATMOSPHERIC models, COMPARATIVE studies, CASE studies

Abstract

On the 27 and 28 April 2009, the area of Oltrepo Pavese in northern Italy was affected by a very intense rainfall event that caused a great number of shallow landslides. These instabilities occurred on slopes covered by vineyards or recently formed woodlands and caused damage to many roads and one human loss. Based on aerial photographs taken immediately after the event and field surveys, more than 1600 landslides were detected. After acquiring topographical data, geotechnical properties of the soils and land use, susceptibility analysis on a territorial scale was carried out. In particular, different physically based models were applied to two contiguous sites with the same geological context but different typologies and sizes of shallow landslides. This paper presents the comparison between the ex-post results obtained from the different approaches. On the basis of the observed landslide localizations, the accuracy of the different models was evaluated, and the significant results are highlighted. [ABSTRACT FROM AUTHOR]

Published

2013

35. Increased vulnerability of the brain norepinephrine system of females to corticotropin-releasing factor overexpression.

Author

Bangasser, D A, Reyes, B A S, Piel, D, Garachh, V, Zhang, X-Y, Plona, Z M, Van Bockstaele, E J, Beck, S G, and Valentino, R J

Subjects

PSYCHIATRY, CORTICOTROPIN releasing hormone, PSYCHOLOGICAL stress, MENTAL illness, NORADRENERGIC mechanisms

Abstract

Stress-related psychiatric disorders are more prevalent in women than men. As hypersecretion of the stress neuromediator, corticotropin-releasing factor (CRF) has been implicated in these disorders, sex differences in CRF sensitivity could underlie this disparity. Hyperarousal is a core symptom that is shared by stress-related disorders and this has been attributed to CRF regulation of the locus ceruleus (LC)-norepinephrine arousal system. We recently identified sex differences in CRF1 receptor (CRF1) signaling and trafficking that render LC neurons of female rats more sensitive to CRF and potentially less able to adapt to excess CRF compared with male rats. The present study used a genetic model of CRF overexpression to test the hypothesis that females would be more vulnerable to LC dysregulation by conditions of excess CRF. In both male and female CRF overexpressing (CRF-OE) mice, the LC was more densely innervated by CRF compared with wild-type controls. Despite the equally dense CRF innervation of the LC in male and female CRF-OE mice, LC discharge rates recorded in slices in vitro were selectively elevated in female CRF-OE mice. Immunoelectron microscopy revealed that this sex difference resulted from differential CRF1 trafficking. In male CRF-OE mice, CRF1 immunolabeling was prominent in the cytoplasm of LC neurons, indicative of internalization, a process that would protect cells from excessive CRF. However, in female CRF-OE mice, CRF1 labeling was more prominent on the plasma membrane, suggesting that the compensatory response of internalization was compromised. Together, the findings suggest that the LC-norepinephrine system of females will be particularly affected by conditions resulting in elevated CRF because of differences in receptor trafficking. As excessive LC activation has been implicated in the arousal components of stress-related psychiatric disorders, this may be a cellular mechanism that contributes to the increased incidence of these disorders in females. [ABSTRACT FROM AUTHOR]

Published

2013

36. POLYCYSTIC OVARY SYNDROME AND HEPATIC STEATOSIS: COULD LOW-GRADE CHRONIC INFLAMMATION BE MEDIATED BY THE SPLEEN?

Author

TARANTINO, G., DI SOMMA, C., PIZZA, G., BRANCATO, V., NEDI, V., VALENTINO, R., ORIO, F., PIVONELLO, C., COLAO, A., and SAVASTANO, S.

Subjects

POLYCYSTIC ovary syndrome, BODY mass index, C-reactive protein, PHENOTYPES, FATTY liver, INFLAMMATION, SPLEEN

Abstract

Polycystic Ovary Syndrome (PCOS) is characterized by an extreme variety of phenotypes and controversial metabolic implications. Hepatic Steatosis (HS) and low-grade chronic inflammation (LGCI) might be common findings in PCOS. We conducted a cross-sectional study to evaluate the LGCI and HS in young women with PCOS according to their Body Mass index (BMI), Insulin Resistance (IR), and PCOS phenotypes. Sixty young premenopausal PCOS women and 20 age-matched controls participated. Primary outcome measures were the presence/severity of HS; LGCI index evaluated as spleen longitudinal diameter (SLD) by UltraSound, C-Reactive Protein (CRP) and Interleukin (IL)-6 levels; BMI and the Homeostasis Model Assessment (HoMA) of IR. The second outcome measures were testosterone, Sex Hormone-Binding Globulin (SHBG) levels, and Free Androgen Index (FAI). The presence of HS and LGCI was not significantly different between NW and O/O patients, while there were significant differences particularly when the PCOS-women were grouped according to IR or to PCOS phenotypes. At multiple regression adjusted for BMI, HoMA-IR and the spleen size were the major determinants of the severity of HS (β= 0.36, p=0.007, and β= 0.28, p=0.034, respectively). At multiple regression SLD represented the unique predictor of FAI (β=0.32; p=0.018). In young women with PCOS, HS was detected independently from obesity and was well predicted not only by IR but also by spleen size, with variable expression of the liver-spleen axis across the different PCOS subtypes. A possible role of the spleen in determining LGCI also in women with PCOS is emphasized. [ABSTRACT FROM AUTHOR]

Published

2013

37. Dielectric-Constant-Enhanced Hall Mobility in Complex Oxides.

Author

Siemons, Wolter, McGuire, Michael A., Cooper, Valentino R., Biegalski, Michael D., Ivanov, Ilia N., Jellison, Gerald E., Boatner, Lynn A., Sales, Brian C., and Christen, Hans M.

Published

2012

38. Towards a real-time susceptibility assessment of rainfall-induced shallow landslides on a regional scale.

Author

Montrasio, L., Valentino, R., Losi, G. L., Reichenbach, P., Jotisankasa, A., and Baum, R.

Subjects

LANDSLIDE hazard analysis, RAINFALL, SLOPE stability, GEOSPATIAL data, TEMPORAL databases, FORECASTING

Published

2011

39. Sex differences in corticotropin-releasing factor receptor signaling and trafficking: potential role in female vulnerability to stress-related psychopathology.

Author

Bangasser, D. A., Curtis, A., Reyes, B. A. S., Bethea, T. T., Parastatidis, I., Ischiropoulos, H., Van Bockstaele, E. J., and Valentino, R. J.

Subjects

MENTAL depression, POST-traumatic stress disorder, PSYCHOLOGICAL stress, PATHOLOGICAL psychology, FEMALES, SEX differences (Biology), LOCUS coeruleus, NORADRENERGIC mechanisms, PSYCHOLOGY

Abstract

Although the higher incidence of stress-related psychiatric disorders in females is well documented, its basis is unknown. Here, we show that the receptor for corticotropin-releasing factor (CRF), the neuropeptide that orchestrates the stress response, signals and is trafficked differently in female rats in a manner that could result in a greater response and decreased adaptation to stressors. Most cellular responses to CRF in the brain are mediated by CRF receptor (CRFr) association with the GTP-binding protein, Gs. Receptor immunoprecipitation studies revealed enhanced CRFr-Gs coupling in cortical tissue of unstressed female rats. Previous stressor exposure abolished this sex difference by increasing CRFr-Gs coupling selectively in males. These molecular results mirrored the effects of sex and stress on sensitivity of locus ceruleus (LC)-norepinephrine neurons to CRF. Differences in CRFr trafficking were also identified that could compromise stress adaptation in females. Specifically, stress-induced CRFr association with β-arrestin2, an integral step in receptor internalization, occurred only in male rats. Immunoelectron microscopy confirmed that stress elicited CRFr internalization in LC neurons of male rats exclusively, consistent with reported electrophysiological evidence for stress-induced desensitization to CRF in males. Together, these studies identified two aspects of CRFr function, increased cellular signaling and compromised internalization, which render CRF-receptive neurons of females more sensitive to low levels of CRF and less adaptable to high levels of CRF. CRFr dysfunction in females may underlie their increased vulnerability to develop stress-related pathology, particularly that related to increased activity of the LC-norepinephrine system, such as depression or post-traumatic stress disorder. [ABSTRACT FROM AUTHOR]

Published

2010

40. Overproduction of phosphoprotein enriched in diabetes (PED) induces mesangial expansion and upregulates protein kinase C-β activity and TGF-β1 expression.

Author

Oriente, F., Iovino, S., Cassese, A., Romano, C., Miele, C., Troncone, G., Balletta, M., Perfetti, A., Santulli, G., Iaccarino, G., Valentino, R., Beguinot, F., and Formisano, P.

Abstract

Overproduction of phosphoprotein enriched in diabetes (PED, also known as phosphoprotein enriched in astrocytes-15 [PEA-15]) is a common feature of type 2 diabetes and impairs insulin action in cultured cells and in mice. Nevertheless, the potential role of PED in diabetic complications is still unknown. We studied the effect of PED overproduction and depletion on kidney function in animal and cellular models. Transgenic mice overexpressing PED (PEDTg) featured age-dependent increases of plasma creatinine levels and urinary volume, accompanied by expansion of the mesangial area, compared with wild-type littermates. Serum and kidney levels of TGF-β1 were also higher in 6- and 9-month-old PEDTg. Overexpression of PED in human kidney 2 cells significantly increased TGF-β1 levels, SMAD family members (SMAD)2/3 phosphorylation and fibronectin production. Opposite results were obtained following genetic silencing of PED in human kidney 2 cells by antisense oligonucleotides. Inhibition of phospholipase D and protein kinase C-β by 2-butanol and LY373196 respectively reduced TGF-β1, SMAD2/3 phosphorylation and fibronectin production. Moreover, inhibition of TGF-β1 receptor activity and SMAD2/3 production by SB431542 and antisense oligonucleotides respectively reduced fibronectin secretion by about 50%. TGF-β1 circulating levels were significantly reduced in Ped knockout mice and positively correlated with PED content in peripheral blood leucocytes of type 2 diabetic patients. These data indicate that PED regulates fibronectin production via phospholipase D/protein kinase C-β and TGF-β1/SMAD pathways in kidney cells. Raised PED levels may therefore contribute to the abnormal accumulation of extracellular matrix and renal dysfunction in diabetes. [ABSTRACT FROM AUTHOR]

Published

2009

41. Plasma exchange in severe spinal attacks associated with neuromyelitis optica spectrum disorder.

Author

Bonnan, M., Valentino, R., Olindo, S., Mehdaoui, H., Smadja, D., and Cabre, P.

Subjects

PLASMA exchange (Therapeutics), OPTICAL spectrometers, DEMYELINATION, STEROID drugs, BLOOD transfusion

Abstract

Background Plasma exchange (PE) is increasingly undertaken in diseases involving humoral factors and is proven to be beneficial in acute demyelinating diseases. Spinal attacks in relapsing neuromyelitis optica (NMO) and in extensive transverse myelitis (ETM) - a truncated form of NMO with spinal involvement - are usually devastating. Objective We retrospectively studied the outcome of PE-treated versus steroid-only treated spinal attacks in relapsing NMO and ETM. Methods We included 96 severe spinal attacks in 43 Afro-Caribbean patients. PE was given as an add-on therapy in 29 attacks. Expanded disability status score (EDSS) was obtained before attack, during the acute and residual stage. We defined the ?EDSS as the rise from basal to residual EDSS. Results The ?EDSS was found to be lower in the PE-treated group (1.2 ± 1.6 vs 2.6 ± 2.3; P < 0.01). A low basal impairment is associated with a better outcome. Improvement was obtained in both NMO-IgG negative and positive NMO attacks. Minor adverse events manifested in seven PE sessions (24%). Conclusion PE appears to be a safe add-on therapy that may be employed early in severe spinal attacks in the NMO spectrum disorders in order to maximize improvement rate. PE efficiency is independent of NMO-IgG positivity. [ABSTRACT FROM AUTHOR]

Published

2009

42. Design and Realization of Ohmic and Schottky Interfaces for Oxide Electronics.

Author

Zhang, Jie, Pai, Yun-Yi, Lapano, Jason, Mazza, Alessandro R., Lee, Ho Nyung, Moore, Rob G., Lawrie, Benjamin J., Ward, T. Zac, Eres, Gyula, Cooper, Valentino R., and Brahlek, Matthew

Subjects

SCHOTTKY effect, OXIDE electrodes, OHMIC resistance

Published

2022

43. Predicting CH/π Interactions with Nonlocal Density Functional Theory.

Author

Hooper, Joe, Cooper, Valentino R., Thonhauser, Timo, Romero, Nichols A., Zerilli, Frank, and Langreth, David C.

Published

2008

44. The PEA15 gene is overexpressed and related to insulin resistance in healthy first-degree relatives of patients with type 2 diabetes.

Author

Valentino, R., Lupoli, G. A., Raciti, G. A., Oriente, F., Farinaro, E., della Valle, E., Salomone, M., Riccardi, G., Vaccaro, O., Donnarumma, G., Sesti, G., Hribal, M. L., Cardellini, M., Miele, C., Formisano, P., and Beguinot, F.

Subjects

GENES, PHOSPHOPROTEINS, ASTROCYTES, DIABETES, INSULIN resistance, TRANSGENIC mice

Abstract

Overexpression of the gene encoding phosphoprotein enriched in astrocytes 15 (PEA15), also known as phosphoprotein enriched in diabetes (PED), causes insulin resistance and diabetes in transgenic mice and has been observed in type 2 diabetic individuals. The aim of this study was to investigate whether PEA15 overexpression occurs in individuals at high risk of diabetes and whether it is associated with specific type 2 diabetes subphenotypes. We analysed PEA15 expression in euglycaemic first-degree relatives (FDR) of type 2 diabetic subjects. The expression of PEA15 in peripheral blood leucocytes (PBLs) paralleled that in fat and skeletal muscle tissues. In PBLs from the FDR, PEA15 expression was two-fold higher than in euglycaemic individuals with no family history of diabetes (control subjects), both at the protein and the mRNA level ( p < 0.001). The expression of PEA15 was comparable in FDR and type 2 diabetic subjects and in each group close to one-third of the subjects expressed PEA15 levels more than 2 SD higher than the mean of control subjects. Subjects with IFG with at least one type 2 diabetes-affected FDR also overexpressed PEA15 ( p < 0.05). In all the groups analysed, PEA15 expression was independent of sex and unrelated to age, BMI, waist circumference, systolic and diastolic BP, and fasting cholesterol, triacylglycerol and glucose levels. However, in euglycaemic FDR of type 2 diabetic subjects, PEA15 expression was inversely correlated with insulin sensitivity ( r = −557, p = 0.01). We conclude that PEA15 overexpression represents a common defect in FDR of patients with type 2 diabetes and is correlated with reduced insulin sensitivity in these individuals. [ABSTRACT FROM AUTHOR]

Published

2006

45. Functional correlations between scoliosis and interdental occlusal disharmony.

Author

Valentino, B., Guidetti, A., Valentino, R., Farina, E., Valentino, T., and Di Giacinto, S.

Subjects

ELECTROMYOGRAPHY, ELECTRODIAGNOSIS, SCOLIOSIS, DENTAL occlusion, CHILDREN

Abstract

The authors have analysed functional correlations between orthodontic occlusal disharmonies and postural and structural scoliosis. To diagnose scoliosis at an early stage, they performed electromyographic tests (EMGs) on two thousand 10-year-old children in order to screen them for occlusal disharmonies and establish whether these were correlated with different scoliotic curvature levels and/or degrees of positivity of the EMG tests. Based on their results, they were able to confirm such correlations in many of the children screened. [ABSTRACT FROM AUTHOR]

Published

2005

46. Early electromyographic diagnosis of scoliosis: First findings of a screening test involving two thousand 10-year-old children.

Author

Valentino, B., Ferrara, I., Valentino, T., Di Giacinto, S., Valentino, R., and Paparo, E.

Subjects

ELECTROMYOGRAPHY, ELECTRODIAGNOSIS, MEDICAL screening, SCOLIOSIS, CHILDREN

Abstract

The authors report the results of EMG tests carried out on two thousand ten-year-old children screened to diagnose scoliosis at an early age of development. The test consists of a flexoextension movement of the trunk. Based on the percentage differences in activity measured in corresponding paravertebral muscular areas we identified three levels of positivity of the test: comparatively low, marked, very high. Children with markedly positive test results are at risk of developing structural scoliosis, while those with very high test results are already affected by structural scoliosis. [ABSTRACT FROM AUTHOR]

Published

2005

47. Strategy of antibiotic rotation: long-term effect on incidence and susceptibilities of gram-negative bacilli responsible for ventilator-associated pneumonia.

Author

Gruson D, Hilbert G, Vargas F, Valentino R, Bui N, Pereyre S, Bebear C, and Gbikpi-Benissan G

Published

2003

48. a1d Adrenoceptor signaling is required for stimulus induced locomotor activity.

Author

Sadalge, A, Coughlin, L, Fu, H, Wang, B, Valladares, O, Valentino, R, and Blendy, J A

Subjects

ADRENERGIC receptors, GENE targeting, ANIMAL locomotion, MICE

Abstract

α1 Adrenergic receptors mediate a variety of physiological responses and have been well studied in the cardiovascular and peripheral nervous system. However, their role in the central nervous system remains ill defined because of the lack of highly specific ligands to the α1 receptor subtypes. Here, we have employed gene targeting to elucidate the role of α1d receptors in vivo. In addition to disrupting function, the insertion of the lacZ gene into the α1d receptor locus enabled the specific identification of cells expressing the α1d gene. These cells are localized in the cortex, hippocampus, olfactory bulb, dorsal geniculate and ventral posterolateral nuclei of the thalamus. Behaviorally, the α1d[sup -/-] mice show normal locomotor activity during the subjective day, or resting phase of their cycle. However, during subjective night, or active phase, wheel-running activity is significantly reduced in mutant mice. Furthermore, these mice show a reduction in exploratory rearing behavior in a novel cage environment. Lastly, α1d[sup -/-] mice show reduced hyperlocomotion after acute amphetamine administration. Together, these data reveal the functional importance of α1d adrenoceptors in mediating a variety of stimulus-induced changes in locomotor behaviors. While the sensitivity of noradrenergic neurons to environmental stimuli has been well documented, our data demonstrate that at least some of these post-synaptic responses are mediated by α1d adrenergic receptors. [ABSTRACT FROM AUTHOR]

Published

2003

49. An EMG study of temporo-mandibular joint disorders.

Author

Valentino, B., Melito, F., and Valentino, R.

Subjects

TEMPOROMANDIBULAR disorders, ELECTROMYOGRAPHY

Abstract

The authors have described a patient with a classical temporo-mandibular joint (TMJ) syndrome who suffered from dental and non-dental symptoms. The patient underwent a set of EMG tests immediately following reconstruction and, after three months, EMG tests normalized and dental and non-dental symptoms subsided. [ABSTRACT FROM AUTHOR]

Published

2002

50. Corticotropin-Releasing Factor Neurones of the Central Nucleus of the Amygdala Mediate Locus Coeruleus Activation by Cardiovascular Stress.

Author

Curtis, A. L., Bello, N. T., Connolly, K. R., and Valentino, R. J.

Subjects

HYPOTENSION, CORTICOTROPIN releasing hormone, LOCUS coeruleus, NORADRENALINE

Abstract

Abstract Hypotensive stress engages corticotropin-releasing factor (CRF) release within the rat locus coeruleus (LC), which activates LC neurones, initiating norepinephrine release in forebrain and activation of forebrain electroencephalographic activity. This study identified CRF afferents to the LC that are engaged during hypotensive stress. One of two potential CRF afferents, the central nucleus of the amygdala (CNA) or bed nucleus of the stria terminalis (BNST), was electrolytically lesioned and LC activation during hypotensive stress was quantified. Neither lesion altered LC spontaneous discharge rate or activation by intra-LC administered CRF. By contrast, LC activation by hypotensive stress was greatly attenuated in CNA-lesioned, but not BNST-lesioned, rats. Hypotensive stress-induced changes in transcriptional activation were immunohistochemically identified in CRF neurones that were retrogradely labelled from the LC region. c-fos immunoreactivity was prevalent in the paraventricular nucleus of the hypothalamus (PVN), CNA and BNST. However, only the PVN contained a substantial number of neurones that were doubly immunolabelled for CRF and c-fos, and few of these were retrogradely labelled from the LC. By contrast, immunoreactivity for the phosporylated form of cyclic AMP response-element binding protein (PCREB) was prevalent in CRF neurones in the CNA and BNST. Moreover, approximately one-third of the PCREB-expressing CRF neurones in the CNA were retrogradely labelled from the LC. These electrophysiological and anatomical findings implicate the CNA as a primary source of CRF that activates the LC during hypotensive stress. Additionally, CREB phosphorylation, rather than c-fos induction, is associated with hypotensive activation of CRF-CNA neurones that project to the LC. [ABSTRACT FROM AUTHOR]

Published

2002