Conducting Polymers Functionalized with Phthalocyanine as Nitrogen Dioxide Sensors
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In this article, PANI-CuPc, PPy-cuPc and PT-CuPC polymers were studied as chemical sensors by their response characteristics after exposure to various chemical vapors such as methanol, ammonia and nitrogen dioxide.Abstract:
The conducting polymers such as polyaniline, polypyrrole and polythiophene were functionalized with copper phthalocyanine using chemical oxidation method. The obtained polymers viz. PANI-CuPc, PPy-CuPc and PT-CuPc were studied as chemical sensors by their response characteristics after exposure to various chemical vapors such as methanol, ammonia and nitrogen dioxide. The results obtained showed that these polymers have moderate sensitivity towards the methanol as well as ammonia vapors whereas they show tremendous sensitivity towards nitrogen dioxide vapors. The sensitivity factor of as high as 50,000 was obtained for PT-CuPc polymers in nitrogen dioxide. In comparison to this, the sensitivity factors of about 100 and 40 were obtained, when these polymers were exposed to ammonia and methanol vapors. The very high selectivity towards the nitrogen dioxide was explained on the basis of charge transfer complex formed between, the phthalocyanine donor and nitrogen dioxide acceptor molecules. On the other hand, ammonia becomes a competing electron donor in CuPc containing conducting polymers. The very low response towards the methanol may be explained on the basis very little charge transfer / interaction between CuPc containing polymers and methanol. Thus, CuPc incorporated conducting polymers have much higher selectivity than their original homopolymerread more
Citations
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Theoretical investigation of the interaction between the metal phthalocyanine [MPc]a(M = Sc, Ti, and V; a = -1, 0, and +1) complexes and formaldehyde.
TL;DR: In this article, the interaction of FA gas with metal phthalocyanine (MPc) molecules was studied by employing density functional theory calculations, and the electronic properties, interaction energies, and charge transfer properties of all of the studied molecules were systematically discussed.
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Development of stable nuclear radiation detectors based on n-silicon/cobalt-phthalocyanine heterojunctions
TL;DR: In this article, two different thicknesses of CoPc film (viz. 100nm and 200nm) were tried out to make detectors by depositing on chemically polished n-Si wafers.
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Influence of Heat Treatment on Surface, Structural and Optical Properties of Nickel and Copper Phthalocyanines Thin Films
Paweł Popielarski,L. Mosińska,Lukasz Skowronski,Robert Szczesny,Viviana Figa,M.K. Naparty,Beata Derkowska-Zielinska +6 more
TL;DR: In this paper , the effect of annealing on the change of polycrystalline α and β phases of copper and nickel phthalocyanines was investigated, and it was shown that this process has a great influence on the optical properties of the vapor-deposited layers.
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Phthalocyanines and Porphyrins/Polyaniline Composites (PANI/CuPctBu and PANI/TPPH2) as Sensing Materials for Ammonia Detection
TL;DR: In this paper , a conducting polymer, polyaniline (PANI), with an organic semiconducting macrocyclic (MCs) material was combined with an ultrasonically assisted reaction involving the two components to achieve the synthesis of the composite nanostructure PANI/MCs.
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Dynamics of ion transport in a bio-derived ionic transistor
TL;DR: In this article, a bio-derived ionic transistor (BIT) is proposed, which consists of a bilayer lipid membrane (BLM) formed on a polypyrrole membrane and has two inputs that regulate the output of the device.
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