Efficient reduction of nitric oxide using zirconium phosphide powders synthesized by elemental combination method

Efficient reduction of nitric oxide using zirconium phosphide powders synthesized by elemental combination method

Abstract Zirconium phosphide (ZrP) powders were synthesized by elemental combination method via the direct reaction of zirconium powders with red phosphorus, and characterized by XRD, SEM, XPS, XRF, SAED and TEM measurements. The obtained ZrP powders were found to exhibit apparent activity in the re...

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Main Authors: Zhen Li, Ning Chen, Jigang Wang, Peishen Li, Ming Guo, Qiang Wang, Chunhong Li, Changzheng Wang, Tao Guo, Shaowei Chen
Format: Article
Language:English
Published: Nature Publishing Group 2017-10-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-017-13616-5
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spelling doaj-a45d754449c74dc282cdf88612d3644d2020-12-08T03:04:07ZengNature Publishing GroupScientific Reports2045-23222017-10-01711710.1038/s41598-017-13616-5Efficient reduction of nitric oxide using zirconium phosphide powders synthesized by elemental combination methodZhen Li0Ning Chen1Jigang Wang2Peishen Li3Ming Guo4Qiang Wang5Chunhong Li6Changzheng Wang7Tao Guo8Shaowei Chen9Laboratory for Micro-sized Functional Materials & College of Elementary Education and Department of Chemistry, Capital Normal UniversityLaboratory for Micro-sized Functional Materials & College of Elementary Education and Department of Chemistry, Capital Normal UniversityLaboratory for Micro-sized Functional Materials & College of Elementary Education and Department of Chemistry, Capital Normal UniversityLaboratory for Micro-sized Functional Materials & College of Elementary Education and Department of Chemistry, Capital Normal UniversityLaboratory for Micro-sized Functional Materials & College of Elementary Education and Department of Chemistry, Capital Normal UniversityLaboratory for Micro-sized Functional Materials & College of Elementary Education and Department of Chemistry, Capital Normal UniversityBeijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, P.O. Box 603Beijing Key Laboratory of Functional Materials for Building Structure and Environment Remediation, Beijing University of Civil Engineering and ArchitectureBeijing Key Laboratory of Functional Materials for Building Structure and Environment Remediation, Beijing University of Civil Engineering and ArchitectureDepartment of Chemistry and Biochemistry, University of CaliforniaAbstract Zirconium phosphide (ZrP) powders were synthesized by elemental combination method via the direct reaction of zirconium powders with red phosphorus, and characterized by XRD, SEM, XPS, XRF, SAED and TEM measurements. The obtained ZrP powders were found to exhibit apparent activity in the ready eliminateion of nitric oxide (NO) via facile redox reactions, and the elimination dynamics was evaluated within the context of various important experimental parameters, such as reaction temperature and gas concentration. At a fixed amount of ZrP powders, an increasing amount of NO would be eliminated with increasing reaction temperature, and complete conversion of NO to N2 could be reached in the range of 700 to 800 °C. The addition of NH3 also facilitated NO elimination at a fixed reaction temperature. Furthermore, of the products of the elimination process, zirconia (ZrO2) powder is a kind of biocompatible material, red phosphorus can be used to produce safety matches, organophosphorous pesticide and phosphor bronze, and the produced N2 might be collected and used as a protective gas or be converted into liquid nitrogen for other purposes.https://doi.org/10.1038/s41598-017-13616-5
collection DOAJ
language English
format Article
sources DOAJ
author Zhen Li
Ning Chen
Jigang Wang
Peishen Li
Ming Guo
Qiang Wang
Chunhong Li
Changzheng Wang
Tao Guo
Shaowei Chen
spellingShingle Zhen Li
Ning Chen
Jigang Wang
Peishen Li
Ming Guo
Qiang Wang
Chunhong Li
Changzheng Wang
Tao Guo
Shaowei Chen
Efficient reduction of nitric oxide using zirconium phosphide powders synthesized by elemental combination method
Scientific Reports
author_facet Zhen Li
Ning Chen
Jigang Wang
Peishen Li
Ming Guo
Qiang Wang
Chunhong Li
Changzheng Wang
Tao Guo
Shaowei Chen
author_sort Zhen Li
title Efficient reduction of nitric oxide using zirconium phosphide powders synthesized by elemental combination method
title_short Efficient reduction of nitric oxide using zirconium phosphide powders synthesized by elemental combination method
title_full Efficient reduction of nitric oxide using zirconium phosphide powders synthesized by elemental combination method
title_fullStr Efficient reduction of nitric oxide using zirconium phosphide powders synthesized by elemental combination method
title_full_unstemmed Efficient reduction of nitric oxide using zirconium phosphide powders synthesized by elemental combination method
title_sort efficient reduction of nitric oxide using zirconium phosphide powders synthesized by elemental combination method
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2017-10-01
description Abstract Zirconium phosphide (ZrP) powders were synthesized by elemental combination method via the direct reaction of zirconium powders with red phosphorus, and characterized by XRD, SEM, XPS, XRF, SAED and TEM measurements. The obtained ZrP powders were found to exhibit apparent activity in the ready eliminateion of nitric oxide (NO) via facile redox reactions, and the elimination dynamics was evaluated within the context of various important experimental parameters, such as reaction temperature and gas concentration. At a fixed amount of ZrP powders, an increasing amount of NO would be eliminated with increasing reaction temperature, and complete conversion of NO to N2 could be reached in the range of 700 to 800 °C. The addition of NH3 also facilitated NO elimination at a fixed reaction temperature. Furthermore, of the products of the elimination process, zirconia (ZrO2) powder is a kind of biocompatible material, red phosphorus can be used to produce safety matches, organophosphorous pesticide and phosphor bronze, and the produced N2 might be collected and used as a protective gas or be converted into liquid nitrogen for other purposes.
url https://doi.org/10.1038/s41598-017-13616-5
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AT ningchen efficientreductionofnitricoxideusingzirconiumphosphidepowderssynthesizedbyelementalcombinationmethod
AT jigangwang efficientreductionofnitricoxideusingzirconiumphosphidepowderssynthesizedbyelementalcombinationmethod
AT peishenli efficientreductionofnitricoxideusingzirconiumphosphidepowderssynthesizedbyelementalcombinationmethod
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