V. Pallozzi scite author profile

Since industrial revolution, human activities drive towards unsustainable global economy due to the overexploitation of natural resources and the unacceptable emissions of pollution and greenhouse gases. In order to address that issue, engineering research has been focusing on gas sensors development for monitoring gas emissions and controlling the combustion process sustainability. Semiconductors metal oxides sensors are attractive technology because they require simple design and fabrication, involving high accessibility, small size and low cost. Perovskite oxides are the most promising sensing materials because sensitivity, selectivity, stability and speed-response can be modulated and optimized by changing the chemical composition. One of the most convenient synthesis process of perovskite is the citrate-nitrate auto-combustion method, in which nitrate is the oxidizing agent and citrate is the fuel and the chelating argent in the same time. Since the sensibility of perovskite oxides depends on the defective crystallographic structure and the nanomorphology, the experimental was designed in order to study the dependence of powder properties on the synthesis conditions, such as the solution acidity and the relative amount of metals, nitrates and citric acid. Crystalline structure was studied in depth for defining the effects of synthesis conditions on size, morphology and crystallographic structure of nanopowders of LaFeO3

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Combined gas conditioning and cleaning for reduction of tars in biomass gasification

Pallozzi

Carlo

Bocci

et al. 2018

Biomass and Bioenergy

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The Case Study of an Innovative Small Scale Biomass Waste Gasification Heat and Power Plant Contextualized in a Farm

et al. 2015

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Optimization of Working Conditions for Perovskite-Based Gas Sensor Devices by Multiregression Analysis

Zaza

Pallozzi

Serra

2019

Journal of Nanotechnology

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Environmental degradation and resource depletion drive scientific research priorities to develop technologies for sustainable productive systems. Among them, chemical sensing technology plays a key role for regulating energetic, ecological, and productive efficiency by monitoring and controlling the industrial processes. Semiconducting metal oxide sensors are particularly attractive technology because of their simplicity in function, small size, and projected low cost. e aim of this work is to synthesize Ti-substituted lanthanum ferrite perovskite, LaFe 0.8 Ti 0.2 O 3 , in order to develop a resistive sensor device for monitoring carbon monoxide. Since sensor performances are affected by experimental factors, such as temperature, target gas concentration, and gas flow rate, the aim of the authors was to define the optimum working condition by performing multiple regression analyses. e investigated ranges of operating conditions were temperature from 300 to 480°C, carbon monoxide concentration from 100 to 200 ppm, and inlet-gas flow rate from 40 to 100 cm 3 /min. e results confirm that the applied systematic analysis is a powerful method for studying the direct and indirect effects of every experimental factor on sensor performance and for computing mathematical models with predictive ability, that are useful tools for defining the optimum chemiresistors' operating conditions. In addition, mathematical models are able to be used as multiple-factor surface calibration for restive gas sensor devices.

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V. Pallozzi

Performance evaluation at different process parameters of an innovative prototype of biomass gasification system aimed to hydrogen production

Combustion synthesis of LaFeO3 sensing nanomaterial

Combined gas conditioning and cleaning for reduction of tars in biomass gasification

The Case Study of an Innovative Small Scale Biomass Waste Gasification Heat and Power Plant Contextualized in a Farm

Optimization of Working Conditions for Perovskite-Based Gas Sensor Devices by Multiregression Analysis

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