Massimo Macucci
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View article: Characterization of rolling bearing rotation and local defects exploiting their magnetic remanence
Characterization of rolling bearing rotation and local defects exploiting their magnetic remanence Open
Rotational speed and defect monitoring are of crucial relevance for all the rotating machinery. Traditional sensors require to be mounted on or near the rotating bodies, exposing them to significant thermal and mechanical stress. In this w…
View article: Tailoring coherent charge transport in graphene by deterministic defect generation
Tailoring coherent charge transport in graphene by deterministic defect generation Open
Harnessing the wave-nature of charge carriers in solid state devices, electron optics investigates and exploits coherent phenomena, in analogy with optics and photonics. Typically, this requires complex electronic devices leveraging macros…
View article: High‐Precision Materials Printer for Fast Prototyping of Electronic Devices Based on 2D Materials
High‐Precision Materials Printer for Fast Prototyping of Electronic Devices Based on 2D Materials Open
There is an increasing interest in printed electronics driven principally by flexible and wearable applications. The interest stems from the ability to fabricate electronic devices, such as Field Effect Transistors (FET), more efficiently …
View article: Characterization of a Transmon Qubit in a 3D Cavity for Quantum Machine Learning and Photon Counting
Characterization of a Transmon Qubit in a 3D Cavity for Quantum Machine Learning and Photon Counting Open
In this paper, we report the use of a superconducting transmon qubit in a 3D cavity for quantum machine learning and photon counting applications. We first describe the realization and characterization of a transmon qubit coupled to a 3D r…
View article: Design and Simulation of a Transmon Qubit Chip for Axion Detection
Design and Simulation of a Transmon Qubit Chip for Axion Detection Open
Quantum Sensing is a rapidly expanding research field that finds one of its applications in Fundamental Physics, as the search for Dark Matter. Devices based on superconducting qubits have already been successfully applied in detecting few…
View article: Data Loggers for High-Temperature Industrial Environments
Data Loggers for High-Temperature Industrial Environments Open
Monitoring temperature in harsh environments is necessary for many applications in space exploration, oil and gas production, renewable energy, and process manufacturing. There are several high-temperature scenarios where placing data logg…
View article: Design Criteria of High-Temperature Integrated Circuits Using Standard SOI CMOS Process up to 300°C
Design Criteria of High-Temperature Integrated Circuits Using Standard SOI CMOS Process up to 300°C Open
In this paper, we discuss the challenges at the device and circuit level that must be addressed to design reliable silicon CMOS integrated circuits operating in high-temperature environments. We present experimental results on representati…
View article: Design and simulation of a transmon qubit chip for Axion detection
Design and simulation of a transmon qubit chip for Axion detection Open
Quantum Sensing is a rapidly expanding research field that finds one of its applications in Fundamental Physics, as the search for Dark Matter. Devices based on superconducting qubits have already been successfully applied in detecting few…
View article: Novel comprehensive feedback theory—Part I: Generalization of the cut‐insertion theorem and demonstration of feedback universality
Novel comprehensive feedback theory—Part I: Generalization of the cut‐insertion theorem and demonstration of feedback universality Open
Summary The previous cut‐insertion theorem, defined for linear circuits and for particular three‐terminal circuits ( TTC s) to be inserted into the cut, is here extended to any TTC and, in a simplified form, to non‐linear networks. The TTC…
View article: Electromagnetic Design of an Inductive Wireless Power Transfer System for Endoscopic Capsule
Electromagnetic Design of an Inductive Wireless Power Transfer System for Endoscopic Capsule Open
The power and energy demand for the instrumentation implemented in endoscopy capsules is such that a power supply from electrochemical cells is inappropriate. In this paper the electromagnetic design of the Wireless Power Transfer (WPT) sy…
View article: Power Optimization of Systems for Direct Thermal to Electrical Energy Conversion
Power Optimization of Systems for Direct Thermal to Electrical Energy Conversion Open
Thermoelectric generators (TEGs) offer the possibility of extracting electrical power from any heat source, including low-enthalpy heat. The operation of thermoelectric generators is closely related to not only thermal factors but also the…
View article: Novel comprehensive feedback theory—Part II: Unifying previous and new feedback models and further results
Novel comprehensive feedback theory—Part II: Unifying previous and new feedback models and further results Open
Summary The objective of this Part II of the paper on a novel feedback approach is that of unifying all the previous general feedback models within a single framework and of obtaining new results. In order to pursue this goal, we exploit t…
View article: Hybrid Flexible NFC Sensor on Paper
Hybrid Flexible NFC Sensor on Paper Open
Everyday healthcare objects have become the focus of interdisciplinary research lines, which aim to monitor human biomedical parameters by means of ergonomic and, ideally, environmentally sustainable sensors. Here, a hybrid system, based o…
View article: Fully Printed and Flexible Schottky Diodes Based on Carbon Nanomaterials Operating Up to 5 MHz
Fully Printed and Flexible Schottky Diodes Based on Carbon Nanomaterials Operating Up to 5 MHz Open
The capability to fabricate printed and flexible
\nenergy harvesting and conditioning circuits, over a large area
\nand with low-cost techniques, is crucial to enable flexible and
\nwearable electronics. Carbon nanomaterials show excellent…
View article: Transport Simulation of Graphene Devices with a Generic Potential in the Presence of an Orthogonal Magnetic Field
Transport Simulation of Graphene Devices with a Generic Potential in the Presence of an Orthogonal Magnetic Field Open
The effect of an orthogonal magnetic field is introduced into a numerical simulator, based on the solution of the Dirac equation in the reciprocal space, for the study of transport in graphene devices consisting of armchair ribbons with a …
View article: Data set for "Inkjet-printed low-dimensional materials-based complementary electronic circuits on paper"
Data set for "Inkjet-printed low-dimensional materials-based complementary electronic circuits on paper" Open
Data set of the experimental results presented in the article "Inkjet-printed low-dimensional materials-based complementary electronic circuits on paper" published in npj-2D Materials and applications.
View article: Data set for "Inkjet-printed low-dimensional materials-based complementary electronic circuits on paper"
Data set for "Inkjet-printed low-dimensional materials-based complementary electronic circuits on paper" Open
Data set of the experimental results presented in the article "Inkjet-printed low-dimensional materials-based complementary electronic circuits on paper" published in npj-2D Materials and applications.
View article: Envelope-function-based analysis of the dependence of shot noise on the gate voltage in disordered graphene samples
Envelope-function-based analysis of the dependence of shot noise on the gate voltage in disordered graphene samples Open
We perform simulations, by means of an envelope-function-based approach, of shot noise in disordered monolayer graphene devices, as a function of the gate bias voltage. In order to approach the experimental conditions, large graphene sampl…
View article: Revisiting the memristor concept within basic circuit theory
Revisiting the memristor concept within basic circuit theory Open
Summary In this paper, we revisit the memristor concept within circuit theory. We start from the definition of the basic circuit elements; then, we introduce the original formulation of the memristor concept and summarize some of the contr…
View article: 1/<i>f</i> Noise Characterization of Bilayer MoS<sub>2</sub> Field‐Effect Transistors on Paper with Inkjet‐Printed Contacts and hBN Dielectrics
1/<i>f</i> Noise Characterization of Bilayer MoS<sub>2</sub> Field‐Effect Transistors on Paper with Inkjet‐Printed Contacts and hBN Dielectrics Open
1/ f noise represents the dominant source of noise in the low‐frequency range in several physical systems, including field‐effect transistors. Its investigation can provide very important information on the fabrication process, highlightin…
View article: Data set for "1/f Noise Characterization of Bilayer MoS2 Field-Effect Transistors on Paper with Inkjet-Printed Contacts and hBN Dielectrics"
Data set for "1/f Noise Characterization of Bilayer MoS2 Field-Effect Transistors on Paper with Inkjet-Printed Contacts and hBN Dielectrics" Open
Data set of the experimental results presented in the article "1/f Noise Characterization of Bilayer MoS2 Field-Effect Transistors on Paper with Inkjet-Printed Contacts and hBN Dielectrics" published in Advanced Electronics Materials.
View article: Data set for "1/f Noise Characterization of Bilayer MoS2 Field-Effect Transistors on Paper with Inkjet-Printed Contacts and hBN Dielectrics"
Data set for "1/f Noise Characterization of Bilayer MoS2 Field-Effect Transistors on Paper with Inkjet-Printed Contacts and hBN Dielectrics" Open
Data set of the experimental results presented in the article "1/f Noise Characterization of Bilayer MoS2 Field-Effect Transistors on Paper with Inkjet-Printed Contacts and hBN Dielectrics" published in Advanced Electronics Materials.
View article: Effects of A Magnetic Field on the Transport and Noise Properties of a Graphene Ribbon with Antidots
Effects of A Magnetic Field on the Transport and Noise Properties of a Graphene Ribbon with Antidots Open
We perform a numerical simulation of the effects of an orthogonal magnetic field on charge transport and shot noise in an armchair graphene ribbon with a lattice of antidots. This study relies on our envelope-function based code, in which …
View article: Data: set for "Low-voltage 2D materials-based printed field-effect transistors for integrated digital and analog electronics on paper"
Data: set for "Low-voltage 2D materials-based printed field-effect transistors for integrated digital and analog electronics on paper" Open
The file reports the raw data of Figure 2, Figure 3 and Figure 4 of the manuscript. Data shown in Figure 2 represent the electrical characterization of the MoS2 FETs with inkjet-printed silver contacts. Figure 2a is a typical transfer char…
View article: Data: set for "Low-voltage 2D materials-based printed field-effect transistors for integrated digital and analog electronics on paper"
Data: set for "Low-voltage 2D materials-based printed field-effect transistors for integrated digital and analog electronics on paper" Open
The file reports the raw data of Figure 2, Figure 3 and Figure 4 of the manuscript. Data shown in Figure 2 represent the electrical characterization of the MoS2 FETs with inkjet-printed silver contacts. Figure 2a is a typical transfer char…
View article: Optimization of the Sensitivity of a Double-Dot Magnetic Detector
Optimization of the Sensitivity of a Double-Dot Magnetic Detector Open
We investigate, by means of numerical simulations, the lowest magnetic field level that can be detected with a given relative accuracy with a sensor based on a double-dot device fabricated in a high-mobility two-dimensional electron gas. T…
View article: Ultrasounds Used as Promoters of Heat-Transfer Enhancement of Natural Convection in Dielectric Fluids for the Thermal Control of Electronic Equipment
Ultrasounds Used as Promoters of Heat-Transfer Enhancement of Natural Convection in Dielectric Fluids for the Thermal Control of Electronic Equipment Open
We present an experimental investigation of the effect of ultrasound application to increase the heat-transfer coefficient for natural convection of a dielectric fluid. An experimental analysis is carried out to estimate the increase of th…
View article: Theoretical Comparison between the Flicker Noise Behavior of Graphene and of Ordinary Semiconductors
Theoretical Comparison between the Flicker Noise Behavior of Graphene and of Ordinary Semiconductors Open
Graphene is a material of particular interest for the implementation of sensors, and the ultimate performance of devices based on such a material is often determined by its flicker noise properties. Indeed, graphene exhibits, with respect …