H
Heinrich Christoph Neitzert
Researcher at University of Salerno
Publications - 117
Citations - 1259
Heinrich Christoph Neitzert is an academic researcher from University of Salerno. The author has contributed to research in topics: Amorphous silicon & Carbon nanotube. The author has an hindex of 20, co-authored 114 publications receiving 1092 citations. Previous affiliations of Heinrich Christoph Neitzert include CSELT & Alenia Aeronautica.
Papers
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Journal ArticleDOI
Radiation Hardness and Self-Healing of Perovskite Solar Cells
Felix Lang,Norbert H. Nickel,Jürgen Bundesmann,Sophie Seidel,Andrea Denker,Steve Albrecht,Viktor V. Brus,Jörg Rappich,Bernd Rech,Giovanni Landi,Heinrich Christoph Neitzert +10 more
TL;DR: These organic-inorganic perovskites exhibit radiation hardness and withstand proton doses that exceed the damage threshold of crystalline silicon by almost 3 orders of magnitude.
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Epoxy/MWCNT Composite as Temperature Sensor and Electrical Heating Element
TL;DR: An epoxy/carbon nanotubes (CNTs) composite material with a low concentration of multiwalled CNTs (0.5 wt%) has been shown to be applicable in a wide temperature range (up to 160°C) as heating and temperature-sensing element as discussed by the authors.
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A noise model for the evaluation of defect states in solar cells
TL;DR: A theoretical model, combining trapping/detrapping and recombination mechanisms, is formulated to explain the origin of random current fluctuations in silicon-based solar cells and the evolution of the dominating defect properties is studied through noise spectroscopy.
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Dielectric Properties of Sustainable Nanocomposites Based on Zein Protein and Lignin for Biodegradable Insulators
Maria Oliviero,Reza Rizvi,Letizia Verdolotti,Salvatore Iannace,Hani E. Naguib,Ernesto Di Maio,Heinrich Christoph Neitzert,Giovanni Landi +7 more
TL;DR: In this paper, the effects of lignin type and content on the dielectric properties of the resulting bio-nanocomposites were investigated, and the results indicated that, by modifying the structural arrangement of the zein with the use of Lignin, it is possible to obtain bio-nodes characterized by tunable dielectrics properties.
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Unravelling the low-temperature metastable state in perovskite solar cells by noise spectroscopy.
Carlo Barone,Felix Lang,C. Mauro,Giovanni Landi,Jörg Rappich,Norbert H. Nickel,Bernd Rech,Sergio Pagano,Heinrich Christoph Neitzert +8 more
TL;DR: The hybrid perovskite methylammonium lead iodide CH3NH3PbI3 recently revealed its potential for the manufacturing of low-cost and efficient photovoltaic cells and electric noise spectroscopy shows that the dynamics of fluctuations detect the existence of a metastable state in a crossover region between the room-temperature tetragonal and the low-tem temperature orthorhombic phases of the perovkite compound.