【摘 要】
:
Realizing the real-time detection of CH4 is important for the safety of human life.A facile hydrothermal method was used to synthesize Ag nanoparticles-decorated ZnO porous nanoflakes(PNFs)in this study.The characterization results confirmed that Ag nanop
【机 构】
:
School of Materials Science and Engineering,Cultivating Base for Key Laboratory of Environment-frien
论文部分内容阅读
Realizing the real-time detection of CH4 is important for the safety of human life.A facile hydrothermal method was used to synthesize Ag nanoparticles-decorated ZnO porous nanoflakes(PNFs)in this study.The characterization results confirmed that Ag nanoparticles had been decorated in ZnO nanoflakes with the thickness of~10 nm.The gas-sensing properties of Ag-decorated ZnO nanoflakes were also investigated.While the gas-sensing performances of ZnO were remarkably improved by decorating Ag nanoparticles on the surface of ZnO nanoflakes,the response of the Ag-decorated ZnO sensor to 3000 ppm CH4 is almost 1.3 times as high as that of pristine ZnO sensor.The obtained Ag/ZnO sensor exhibits better long-term stability and shorter response recovery time(5/38 s)in the comparison with pristine ZnO,demonstrating the possibility for the actual detection of CH4.The enhanced CH4 sensing performance can be attributed to the synergism between the unique hierarchical porous structure and the sensitizing actions utilized by the Ag nanoparticles.
其他文献
WO3(H2O)0.333/CdS(WS)nanocomposites are obtained via a rapid micro-wave hydrothermal method,and they are served as visible light-driven photocatalysts for the H2 generation.By using Pt as the cocatalyst,the WS nanocomposite with 70 wt.%CdS reaches the H2
Interface engineering is an efficient strategy to modify electronic structure and further improve electrocatalytic activity.Herein,crystalline/amorphous heterostruc-tured Co3O4-SmMn2O5 nanosheets(Co3O4-SMO NSs)have been synthesized by coupling of SMO(elec
按照新时代防汛抗旱工作要求,辽宁省经过优化调整,基本形成了新的防汛抗旱指挥体系,责任体系、制度体系、监测预警体系、抢险救援体系、技术支撑体系等方面不断完善,并经过2019年、2020年防汛抗旱工作实践检验,实现了“不死少伤少损失”的防汛抗旱工作目标.针对防汛抗旱实践中,工程体系、非工程体系、指挥体系、基层防办能力、技术支撑体系等方面存在的问题进行了思考与探讨,并提出下一步对策和工作举措.
Nanotoxicology has become the subject of intense research for more than two decades.Thousands of articles have been published but the space in understanding the nanotoxicity mechanism and the assessment is still unclear.Recent researches clearly show pote
We prepared porous Fe-doped nickel cobaltate(Fe-NiCo2O4)hollow hierarchical nanospheres through a facile self-templated synthetic strategy.Due to the porous hollow structure and composition,the Fe-NiCo2O4 presented vastly superior electrocatalytic activit
Water-solid triboelectric nanogenerators(TENGs),as new energy collec-tion devices,have attracted increasing attention in ocean energy harvesting and self-powered sensing.Polyacrylic acid(PAA)coating,usually used on the surface of marine equipment,has the
To construct supercapacitors(SCs)with high-efficient electrochemical properties,the morphology and structure of applied electrode materials are the key factors.Herein,three-dimensional(3D)sea urchin-like MnCo2O4 nanoarchitectures grown on Ni foam(NF)were
Solar thermal desalination(STD)is a promising and sustainable techno-logy for extracting clean water resources.Whereas recent studies to improve STD performance primarily focus on interfacial solar evaporation,a non-traditional bottom heating method was d
各个国家(或地区)在引航管理上具有不同的机构运作、组织架构、管理方式,见表1.引航具有很强、明显的公益性,关系到国家港口的安全和综合竞争力,具有保障公共安全和提供公共服务性的特点,从服务的非竞争性、非排他性以及是否产生外部效益来看,引航不以营利为目的,具有准公共物品的属性,不是完全由市场配置资源的.大多数国家或地区一个港口设置一家引航机构,完全市场化的模式较少;引航机构的法人性质有政府、企业和民间组织,引航员的身份有公务员、企业员工和自由职业者等3种,但运行机制比较类似,即采用类似政府特许经营的模式,给予
2021年以来,习近平总书记提出了关于“二氧化碳排放力争于2030年前达到峰值,努力争取2060年前实现碳中和”的战略目标.宁波舟山港作为货物吞吐量连续10年世界第1的港口,建强港,当硬核,积极落实习近平总书记提出的战略任务,把碳达峰碳中和的目标作为重点工作任务来抓,加快调整港口能源结构,形成绿色低碳的生产运营模式.