Oxidized Carbon Nanohorns as Novel Sensing Layer for Resistive Humidity Sensor

Authors

  • Bogdan Catalin Serban National Institute for R&D in Microtechnologies - IMT Bucharest
  • Octavian Buiu National Institute for Research and Development in Microtechnologies, IMT-Bucharest
  • Nicolae Dumbravescu National Institute for Research and Development in Microtechnologies, IMT-Bucharest
  • Cornel Cobianu
  • Viorel Avramescu
  • Mihai Brezeanu
  • Marius Bumbac
  • Cristina Mihaela Nicolescu

DOI:

https://doi.org/10.17344/acsi.2019.5415

Keywords:

Humidity sensor, oxidized carbon nanohorns, HSAB principle

Abstract

The paper reports the relative humidity (RH) sensing response of a resistive sensor employing oxidized carbon nanohorns - based sensing layer. The sensing layer is deposited on an interdigitated (IDT) structure, comprising a Si substrate, a SiO2 layer, and IDT electrodes. The structure exhibits good RH sensitivity when varying RH from 0% up to 90%, either in humid nitrogen or in a humid air environment. The conductivity of the sensing layer decreases, while the RH level increases. During the interaction with the water molecules (acting as electron donors), the number of holes will decrease and oxidized single-walled carbon nanohorns (SWCNHs), considered normally p-type semiconductor, will become more resistive. The sensing mechanism is explained in terms of the Hard Soft Acid Base (HSAB) paradigm, building on the fact that water molecules are hard bases, while oxidized carbon nanohorns can be virtually assimilated with hard acids.

Author Biography

Bogdan Catalin Serban, National Institute for R&D in Microtechnologies - IMT Bucharest

Bogdan-Catalin Serban   was born in Bucharest, Romania, in 1971. He received his B.Sc., M. Sc., and   Ph.D. in Chemistry from University Politehnica of Bucharest in 1996, 1998,   and 2005, respectively. He has been a Senior Research Scientist within   Honeywell Romania - Sensors and Wireless Laboratory Bucharest (SWLB) since   March 2004 until February 2017. Now is senior research scientist at the   National Institute for R&D in Microtechnology – IMT Bucharest.

His current   research interests include design and synthesis of new materials for gas and   relative humidity sensors and design of photovoltaic devices using quantum   dots or dyes as sensitizers. He is co-author of 25 books and book chapters,   more than 70 papers and more than 80 papers presented at national and   international conferences. He holds more than 90 U.S, European and China granted   patents and other 35 U.S and European patent pending applications, being cited more than 800 times for his   papers and patents.

He was involved   in the FP7 NEMSIC and FP7 SOI-HITS projects (consortium of the SOI –HITS   project won European innovation award   for FP7 competition, section"Micro/Nano Electronics" or   "Smart System Integration", Berlin December 1, 2015), in the RO-EU   structural funds-funded NOVOCELL project and in more than 20 Ro-Governmental-funded projects. A   molecule which was first introduced in 2015 in RSC Advances bears his name   (BCS-1).

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https://scholar.google.ro/citations?user=zvbL34EAAAAJ&hl=ro

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Published

15.06.2020

Issue

Vol. 67 No. 2 (2020)

Section

Materials science

License

Except where otherwise noted, articles in this journal are published under the Creative Commons Attribution 4.0 International License