期刊文献+
共找到10篇文章
< 1 >
每页显示 20 50 100
Electrochemical Surface Restructuring of Phosphorus-Doped Carbon@MoP Electrocatalysts for Hydrogen Evolution 被引量:5
1
作者 Huimin Jiang Liting Yan +6 位作者 Shuo Zhang Yanchao Zhao Xue Yang Yameng Wang Jianxing Shen Xuebo Zhao Lianzhou Wang 《Nano-Micro Letters》 SCIE EI CAS CSCD 2021年第12期484-498,共15页
The hydrogen evolution reaction(HER) through electrocatalysis is promising for the production of clean hydrogen fuel. However,designing the structure of catalysts,controlling their electronic properties,and manipulati... The hydrogen evolution reaction(HER) through electrocatalysis is promising for the production of clean hydrogen fuel. However,designing the structure of catalysts,controlling their electronic properties,and manipulating their catalytic sites are a significant challenge in this field. Here,we propose an electrochemical surface restructuring strategy to design synergistically interactive phosphorus-doped carbon@MoP electrocatalysts for the HER. A simple electrochemical cycling method is developed to tune the thickness of the carbon layers that cover on MoP core,which significantly influences HER performance. Experimental investigations and theoretical calculations indicate that the inactive surface carbon layers can be removed through electrochemical cycling,leading to a close bond between the MoP and a few layers of coated graphene. The electronsdonated by the MoP core enhance the adhesion and electronegativity of the carbon layers;the negatively charged carbon layers act as an active surface. The electrochemically induced optimization of the surface/interface electronic structures in the electrocatalysts significantly promotes the HER. Using this strategy endows the catalyst with excellent activity in terms of the HER in both acidic and alkaline environments(current density of 10 mA cm^(-2) at low overpotentials,of 68 mV in 0.5 M H_(2)SO_(4) and 67 mV in 1.0 M KOH). 展开更多
关键词 Electrochemical surface restructuring Hydrogen evolution Molybdenum phosphide nanowires phosphorus-doped carbon Synergistic interaction
下载PDF
Properties of phosphorus-doped ZnO film deposited by radio-frequency magnetron sputtering
2
作者 朱仁江 《Journal of Chongqing University》 CAS 2006年第2期98-101,共4页
The phosphorus-doped ZnO films were prepared on glass substrate by radio-frequency (RF) magnetron sputtering at different temperature. The properties of ZnO films doped with P2O5 respectively with a mass fraction of 0... The phosphorus-doped ZnO films were prepared on glass substrate by radio-frequency (RF) magnetron sputtering at different temperature. The properties of ZnO films doped with P2O5 respectively with a mass fraction of 0 and 1% were characterized via X-ray diffraction (XRD), X-ray photoelectron spectroscopy (XPS), transmission spectra and room-temperature Hall measurements. The film deposited at room temperature shows more crystallinity with a preferential orientation along c-axis, and exhibits good optical property. XPS analyses indicate most of phosphorus in ZnO:P film form antisite PZn or phosphide compound, resulting in forming a donor state, which is consistent with the result examined by Hall measurement. 展开更多
关键词 ZNO phosphorus-doped X-ray photoelectron spectroscopy
下载PDF
Phosphorus-doped Ni–Co sulfides connected by carbon nanotubes for flexible hybrid supercapacitor
3
作者 Shengwang Su Li Sun +2 位作者 Feng Xie Jialong Qian Yihe Zhang 《Frontiers of Chemical Science and Engineering》 SCIE EI CSCD 2023年第5期491-503,共13页
As promising electrode materials for supercapacitors,nickel-cobalt bimetallic sulfides render the advantages of abundant redox reactions and inherently high conductivity.However,in general,unsatisfactory performance o... As promising electrode materials for supercapacitors,nickel-cobalt bimetallic sulfides render the advantages of abundant redox reactions and inherently high conductivity.However,in general,unsatisfactory performance of low specific capacity,low rate capability,and fast capacity loss exist in Ni–Co sulfide electrodes.Herein,we rationally regulate phosphorus-doped nickel–cobalt sulfides(P-NCS)to enhance the electrochemical performance by gas–solid phosphorization.Moreover,carbon nanotubes(CNTs)as conductive additives are added to improve the cycle stability and conductivity and form the composite P-NCS/C/CNT.According to density functional theory,more electrons near the Fermi surface of P-NCS are demonstrated notionally than those of simple CoNi2S4.Electrochemical results manifest that P-NCS/C/CNT exhibits superior electrochemical performance,e.g.,high specific capacity(932.0 C·g^(-1)at 1 A·g^(-1)),remarkable rate capability(capacity retention ratio of 69.1%at 20 A·g^(-1)),and lower charge transfer resistance.More importantly,the flexible hybrid asymmetric supercapacitor is assembled using P-NCS/C/CNT and activated carbon,which renders an energy density of 34.875 W·h∙kg^(-1)at a power density of 375 W∙kg^(-1).These results show that as-prepared P-NCS/C/CNT demonstrates incredible possibility as a battery-type electrode for high-performance supercapacitors. 展开更多
关键词 cobalt nickel sulfide phosphorus-doping hybrid supercapacitor carbon nanotube density functional theory
原文传递
Electronic structures of phosphorus-doped diamond films and impacts of their vacancies 被引量:6
4
作者 WANG GangWen SHAO QingYi 《Science China(Physics,Mechanics & Astronomy)》 SCIE EI CAS 2010年第7期1248-1254,共7页
In order to better understand the bonding mechanisms of the phosphorus-doped diamond films and the influences of the phosphorus-doped concentration on the diamond lattice integrity and conductivity,we calculate the el... In order to better understand the bonding mechanisms of the phosphorus-doped diamond films and the influences of the phosphorus-doped concentration on the diamond lattice integrity and conductivity,we calculate the electronic structures of the phosphorus-doped diamond with different phosphorus concentrations and the density of states in the phosphorus--doped diamond films with a vacant lattice site by the first principle method.The calculation results show the phosphorus atom only affects the bonds of a few atoms in its vicinity,and the conductivity increases as the doped concentration increases.Also in the diamond lattice with a total number of 64 atoms and introducing a vacancy into the non-nearest neighbor lattice site of a phosphorus atom,we have found that both the injuries of the phosphorus-doped diamond films and the N-type electron conductivity of diamond films could be improved. 展开更多
关键词 phosphorus-doped impurity level VACANCY diamond lattice
原文传递
Cladding-pumped Raman fiber laser with 0.78%quantum defect enabled by phosphorus-doped fiber 被引量:3
5
作者 Xiaoya Ma Jiangming Xu +6 位作者 Jun Ye Yang Zhang Liangjin Huang Tianfu Yao Jinyong Leng Zhiyong Pan Pu Zhou 《High Power Laser Science and Engineering》 SCIE CAS CSCD 2022年第2期1-6,共6页
The quantum defect(QD)is an important issue that demands prompt attention in high-power fiber lasers.A large QD may aggravate the thermal load in the laser,which would impact the frequency,amplitude noise and mode sta... The quantum defect(QD)is an important issue that demands prompt attention in high-power fiber lasers.A large QD may aggravate the thermal load in the laser,which would impact the frequency,amplitude noise and mode stability,and threaten the security of the high-power laser system.Here,we propose and demonstrate a cladding-pumped Raman fiber laser(RFL)with QD of less than 1%.Using the Raman gain of the boson peak in a phosphorus-doped fiber to enable the cladding pump,the QD is reduced to as low as 0.78%with a 23.7 W output power.To our knowledge,this is the lowest QD ever reported in a cladding-pumped RFL.Furthermore,the output power can be scaled to 47.7 W with a QD of 1.29%.This work not only offers a preliminary platform for the realization of high-power low-QD fiber lasers,but also proves the great potential of low-QD fiber lasers in power scaling. 展开更多
关键词 cladding pumping lowquantum defect phosphorus-doped fiber Ramanfiber laser
原文传递
Construction of phosphorus-doping with spontaneously developed selenium vacancies: Inducing superior ion-diffusion kinetics in hollow Cu_(2)Se@C nanospheres for efficient sodium storage
6
作者 Xiaoqing Ma Yadong Li +4 位作者 Xiaojiang Long Hong-chuan Luo Chunping Xu Guangzhao Wang Wenxi Zhao 《Journal of Energy Chemistry》 SCIE EI CAS CSCD 2023年第2期227-238,I0007,共13页
Achieving high-efficiency sodium storage in metal selenides is still severely constrained in consideration of their inferior electronic conductivity and inadequate Na^(+)insertion pathways and active sites.Heteroatom ... Achieving high-efficiency sodium storage in metal selenides is still severely constrained in consideration of their inferior electronic conductivity and inadequate Na^(+)insertion pathways and active sites.Heteroatom doping accompanied by spontaneously developed lattice defects can effectively tune electronic structure of metal selenides,which give a strong effect to motivate fast charge transfer and Na^(+)accessibility.Herein,we finely designed and successfully constructed a fascinating phosphorus-doped Cu_(2)Se@C hollow nanosphere with abundant vacancy defects(Cu_(2)P_(x)Se_(1-x)@C)through a combination strategy of selenization of Cu_(2)O nanosphere template,self-polymerization of dopamine,and subsequent phosphorization treatment.Such exquisite composite possesses enriched active sites,superior conductivity,and sufficient Na^(+)insertion channel,which enable much faster Na^(+)diffusion rates and more remarkable pseudocapacitive features,Satisfyingly,the Cu_(2)P_(x)Se_(1-x)@C composites manifest the supernormal sodium-storage capabilities,that is,a reversible capacity of 403.7 mA h g^(-1) at 1.0 A g^(-1) over 100 cycles,and an ultrastable cyclic lifespan over 1000 cycles at 20.0 A g^(-1) with a high capacity-retention of about249.7 mA h g^(-1).The phase transformation of the Cu_(2)P_(x)Se_(1-x)@C involving the intercalation of Na^(+)into Cu_(2)Se and the following conversion of NaCuSe to Cu and Na2Se were further demonstrated through a series of ex-situ characterization methods.DFT results demonstrate that the coexistence of phosphorusdoping and vacancy defects within Cu_(2)Se results in the reduction of Na^(+)adsorption energy from-1.47to-1.56 eV improving the conductivity of Cu_(2)Se to further accelerate fast Na^(+)mobility. 展开更多
关键词 phosphorus-doping Selenium vacancies Hollow Cu_(2)Se@C nanospheres Anode Sodium storage
下载PDF
P-Doped Titania Xerogels as Efficient UV-Visible Photocatalysts
7
作者 Céline J.Bodson Sophie L.Pirard +5 位作者 René Pirard Ludivine Tasseroul Catherine Bied Michel Wong Chi Man Benoit Heinrichs Stéphanie D.Lambert 《Journal of Materials Science and Chemical Engineering》 2014年第8期17-32,共16页
In the present study, sol-gel process is used to synthesize P-doped TiO2 xerogels by the cogelation method of a functionalized P alkoxide, (NH2-(CH2)2-NH-(CH2)2-P(O)-(OC2H5)2) with Ti(OC3H7)4 in either 2-methoxyethano... In the present study, sol-gel process is used to synthesize P-doped TiO2 xerogels by the cogelation method of a functionalized P alkoxide, (NH2-(CH2)2-NH-(CH2)2-P(O)-(OC2H5)2) with Ti(OC3H7)4 in either 2-methoxyethanol or isopropanol. The phosphorus-doping improved the thermal stability of titania and decreased the phase transformation of anatase into rutile. This modification by phosphorus shifted the absorption edge of titania to the visible region as proved by Diffuse reflectance measurements, and thus offers the possibility to produce visible light effective TiO2 photocatalyst. The excellent photocatalytic activity of P-doped TiO2 xerogels compared to pure TiO2 could be explained by its high surface area and small TiO2-anatase crystallite size. From these results, it was proved by using three different models that phosphorus intrinsically influences the photocatalytic activity. 展开更多
关键词 TiO_(2) xerogel phosphorus-doping Sol-Gel p-Nitrophenol Degradation PHOTOCATALYSIS
下载PDF
Electrocatalytic reduction of NO to NH_(3) in ionic liquids by P-doped TiO_(2) nanotubes 被引量:3
8
作者 Shangcong Zhang Qian Liu +7 位作者 Xinyue Tang Zhiming Zhou Tieyan Fan Yingmin You Qingcheng Zhang Shusheng Zhang Jun Luo Xijun Liu 《Frontiers of Chemical Science and Engineering》 SCIE EI CSCD 2023年第6期726-734,共9页
Designing advanced and cost-effective electrocatalytic system for nitric oxide(NO)reduction reaction(NORR)is vital for sustainable NH_(3) production and NO removal,yet it is a challenging task.Herein,it is shown that ... Designing advanced and cost-effective electrocatalytic system for nitric oxide(NO)reduction reaction(NORR)is vital for sustainable NH_(3) production and NO removal,yet it is a challenging task.Herein,it is shown that phosphorus(P)-doped titania(TiO_(2))nanotubes can be adopted as highly efficient catalyst for NORR.The catalyst demonstrates impressive performance in ionic liquid(IL)-based electrolyte with a remarkable high Faradaic efficiency of 89%and NH3 yield rate of 425μg·h^(−1)·mg_(cat).^(−1),being close to the best-reported results.Noteworthy,the obtained performance metrics are significantly larger than those for N_(2) reduction reaction.It also shows good durability with negligible activity decay even after 10 cycles.Theoretical simulations reveal that the introduction of P dopants tunes the electronic structure of Ti active sites,thereby enhancing the NO adsorption and facilitating the desorption of ^(*)NH_(3).Moreover,the utilization of IL further suppresses the competitive hydrogen evolution reaction.This study highlights the advantage of the catalyst−electrolyte engineering strategy for producing NH_(3) at a high efficiency and rate. 展开更多
关键词 nitric oxide reduction reaction electrcatalysis ammonia production phosphorus-doped titania
原文传递
Encapsulated FeP nanoparticles with in-situ formed P-doped graphene layers:Boosting activity in oxygen reduction reaction 被引量:2
9
作者 Baoxia Ni Rui Chen +2 位作者 Luming Wu Pingchuan Sun Tiehong Chen 《Science China Materials》 SCIE EI CAS CSCD 2021年第5期1159-1172,共14页
Nonprecious metal-based oxygen reduction reaction(ORR)electrocatalysts with high efficiency in both alkaline and acidic media are being intensively studied for the purpose of replacing expensive Pt-based catalysts;how... Nonprecious metal-based oxygen reduction reaction(ORR)electrocatalysts with high efficiency in both alkaline and acidic media are being intensively studied for the purpose of replacing expensive Pt-based catalysts;however,it is still a challenge to achieve superior ORR performances,especially in acidic media.Herein,by pyrolysis of mixed precursors of diammonium phosphate,melamine and hemin,we prepared a nanocomposite catalyst(denoted as FeP@PGL)composed of nitrogen-doped carbon nanosheets with embedded FeP nanoparticles(NPs),which were encapsulated by in-situ formed phosphorus-doped graphene layers.It is found that phosphorous was preferentially doped in the coating layers on FeP NPs,instead of in the carbon nanosheets.The FeP@PGL catalyst exhibited excellent ORR performance,with the onset and half-wave potential up to 1.01 and 0.90 V vs.the reversible hydrogen electrode(RHE)in alkaline media,and0.95 and 0.81 V vs.RHE in acidic media,respectively.By thorough microscopy and spectroscopy characterizations,the interfacial charge transfer between the encapsulated FeP NPs and P-doped graphene layers was identified,and the local work function of the catalyst surface was also reduced by the interfacial interaction.The interfacial synergy between the encapsulated FeP and phosphorus-doped graphene layers was essential to enhance the ORR performance.This study not only demonstrates the promising ORR properties of the encapsulated-FeP-based nanocomposite catalyst,but also provides direct evidence of the interfacial charge transfer effect and its role in ORR process. 展开更多
关键词 FEP ENCAPSULATION phosphorus-doped graphene layers charge transfer oxygen reduction reaction
原文传递
The synergistic effect of P-doping and carbon coating for boosting electrochemical performance of TiO_(2) nanospheres for sodium-ion batteries
10
作者 Zixing Guan Kaixiang Zou +2 位作者 Xiao Wang Yuanfu Deng Guohua Chen 《Chinese Chemical Letters》 SCIE CAS CSCD 2021年第12期3847-3851,共5页
P-doping is an effective way to modulate the electronic structure and improve the Na+diffusion kinetics of TiO_(2), enabling enhanced electrochemical performance. However, it is a challenge to prepare TiO;with a high ... P-doping is an effective way to modulate the electronic structure and improve the Na+diffusion kinetics of TiO_(2), enabling enhanced electrochemical performance. However, it is a challenge to prepare TiO;with a high P-doping concentration starting from TiO_(2)in a crystalline state. In this work, we design a novel two-step route for constructing a carbon-coated anatase P-doping TiO_(2)nanospheres(denote as(PAn TSS)@NC) with high P-doping concentration, by utilizing amorphous TiO;nanospheres with the ultrahigh specific area as P-doping precursor firstly, and followed by carbon coating treatment. Experimental results demonstrate that P is successfully doped into the crystal lattice and carbon layer is well coated on the surface of TiO_(2), with P-doping and carbon-coating contents of ~13.5 wt% and 10.4 wt%, respectively,which results in the enhanced pseudocapacitive behavior as well as favorable Na+and electron transferring kinetics. The(P-AnTSS)@NC sample shows excellent rate and cycle performance, exhibiting specific capacities of 177 and 115 m Ah/g at 0.1 and 1.0 A/g after 150 and 2000 cycles, respectively. 展开更多
关键词 TiO_(2) phosphorus-doping Carbon coating layer Anode material Sodium-ion batteries
原文传递
上一页 1 下一页 到第
使用帮助 返回顶部