Owing to the distinctive structural characteristics,vanadium nitride(VN)is highly regarded as a catalyst for oxygen reduction reaction(ORR)in zinc-air batteries(ZABs).However,VN exhibits limited intrinsic ORR activity...Owing to the distinctive structural characteristics,vanadium nitride(VN)is highly regarded as a catalyst for oxygen reduction reaction(ORR)in zinc-air batteries(ZABs).However,VN exhibits limited intrinsic ORR activity due to the weak adsorption ability to O-containing species.Here,the S-doped VN anchored on N,S-doped multi-dimensional carbon(S-VN/Co/NS-MC)was constructed using the solvothermal and in-situ doping methods.Incorporating sulfur atoms into VN species alters the electron spin state of vanadium in the S-VN/Co/NS-MC for regulating the adsorption energy of vanadium sites to oxygen molecules.The introduced sulfur atoms polarize the V 3d_(z)^(2) electrons,shifting spin-down electrons closer to the Fermi level in the S-VN/Co/NS-MC.Consequently,the introduction of sulfur atoms into VN species enhances the adsorption energy of vanadium sites for oxygen molecules.The*OOH dissociation transitions from being unspontaneous on the VN surface to a spontaneous state on the S-doped VN surface.Then,the ORR barrier on the S-VN/Co/NS-MC surface is reduced.The S-VN/Co/NS-MC demonstrates a higher half-wave potential and limiting current density compared to the VN/Co/N-MC.The S-VN/Co/NS-MC-based liquid ZABs display a power density of 195.7 m W cm^(-2),a specific capacity of 815.7 m A h g^(-1),and a cycling stability exceeding 250 h.The S-VN/Co/NS-MC-based flexible ZABs are successfully employed to charge both a smart watch and a mobile phone.This approach holds promise for advancing the commercial utilization of VN-based catalysts in ZABs.展开更多
This paper, will seek the optimal control and corresponding trajectories of the singularly perturbed nonlinear state regulator problem. Under appropriate hypotheses. it will be possible to complete an asymptotic solut...This paper, will seek the optimal control and corresponding trajectories of the singularly perturbed nonlinear state regulator problem. Under appropriate hypotheses. it will be possible to complete an asymptotic solution which is uniformly valid when e→0.展开更多
With large-scale engineering projects being carried out in China, a large number of fossil localities have been discovered and excavated by responsible agencies, but still some important fossils of great value have be...With large-scale engineering projects being carried out in China, a large number of fossil localities have been discovered and excavated by responsible agencies, but still some important fossils of great value have been removed and smuggled into foreign countries. In the last three years, more than 1345 fossil specimens have been intercepted by Customs in Shenzhen, Shanghai, Tianjin, Beijing and elsewhere, and more than 5000 fossils, most of which are listed as key fossils,展开更多
This article explores the challenges of financial sustainability faced by higher education institutions in the United States.Against a backdrop of stringent state and federal regulations coupled with a decline in fina...This article explores the challenges of financial sustainability faced by higher education institutions in the United States.Against a backdrop of stringent state and federal regulations coupled with a decline in financial support,institutions are grappling with a shifting landscape.The paper delves into the intricacies of state regulations and funding policies,highlighting their impact on educational establishments.Furthermore,strategies for financial sustainability,including student attraction and retention,are discussed.The article concludes by underscoring the duality of regulations as both challenges and essential resources,suggesting a potential shift towards greater autonomy and a reshaping of the educational landscape in response to modern challenges.展开更多
Recently,decision has been made by the State Council onthe amendments to the Regulations for foreign Exchange Controlof the People’s Republic of China".The following amendments to the "Regulations Foreign E...Recently,decision has been made by the State Council onthe amendments to the Regulations for foreign Exchange Controlof the People’s Republic of China".The following amendments to the "Regulations Foreign Ex-change Control of the People’s Republic of China" are decided bythe State Council:1.Add an article and become Article five "No restriction bythe State as to regular international payment and transfer".2.Article 13 Clause one become Article 14 Clause one,amendto read "Foreign exchange of private use by individuals can be pur-chased within the prescribed limit amount.Foreign exchange ofprivate use by individuals in excess of the prescribed limit amount,an application has to be filed with the Administration of ExchangeControl,and foreign exchange can be purchased after展开更多
Amplifying the intrinsic wettability of substrate material by changing the solid/liquid contact area is considered to be the main mechanism for controlling the wettability of rough or structured surfaces.Through theor...Amplifying the intrinsic wettability of substrate material by changing the solid/liquid contact area is considered to be the main mechanism for controlling the wettability of rough or structured surfaces.Through theoretical analysis and experimental exploration,we have found that in addition to this wettability structure amplification effect,the surface structure also simultaneously controls surface wettability by regulating the wetting state via changing the threshold Young angles of the Cassie-Baxter and Wenzel wetting regions.This wetting state regulation effect provides us with an alternative strategy to overcome the inherent limitation in surface chemistry by tailoring surface structure.The wetting state regulation effect created by multi-scale hierarchical structures is quite significant and plays is a crucial role in promoting the superhydrophobicity,superhydrophilicity and the transition between these two extreme wetting properties,as well as stabilizing the Cassie-Baxter superhydrophobic state on the fabricated lotus-like hierarchically structured Cu surface and the natural lotus leaf.展开更多
Photodeposition is widely adopted for implanting metal/metal oxide cocatalysts on semiconductors.However,it is prerequisite that the photon energy should be sufficient to excite the host semiconductor.Here,we report a...Photodeposition is widely adopted for implanting metal/metal oxide cocatalysts on semiconductors.However,it is prerequisite that the photon energy should be sufficient to excite the host semiconductor.Here,we report a lower-energy irradiation powered deposition strategy for implanting CrO_(x) cocatalyst on TiO_(2).Excitingly,CrO_(x)-400 implanted under visible-light irradiation significantly promotes the CH4 evolution rate on TiO_(2)to 8.4μmolg·^(-1)h^(-1) with selectivity of98%from photocatalytic CO_(2)reduction,which is 15 times of that on CrO_(x)-200 implanted under UV-visible-light irradiation.Moreover,CrO_(x)-400 is identified to be composed of higher valence Cr species compared to CrO_(x)-200.This valence states regulation of Cr species is indicated to provide more active sites for CO_(2) adsorption/activation and to modulate the reaction mechanism from single Cr site to Cr-Cr dual sites,thus endowing the superior CH_(4)production.This work demonstrates an alternative strategy for constructing efficient metal oxides cocatalysts on wide bandgap semiconductor.展开更多
There are five different publications that establish guidelines for sustainable building development that are examined in this report:(1)Leadership in Energy and Environmental Design(“LEED”);(2)CalGreen;(3)the Inter...There are five different publications that establish guidelines for sustainable building development that are examined in this report:(1)Leadership in Energy and Environmental Design(“LEED”);(2)CalGreen;(3)the International Green Construction Code(“IGCC”);(4)ASHRAE Standard 189.1(“Standard 189.1”);and(5)The San Francisco’s Green Building Ordinance(“SFGBO”).Having multiple publications can cause confusion among building developers,architects,engineers,building consultants,or various jurisdictions on what publication to follow,use,or reference in building development projects.This article will provide various parties involved in building development a thorough understanding of each publication and the similarities or differences between them,which will ultimately assist in identifying areas for all publications to improve.Specifically,this article demonstrates that the Material and Energy sections for all the publications must advance beyond the current requirements.Also,the comparison validates that CalGreen’s Tier 2 is similar to LEED’s local ordinances,like the SFGBO.This may mean two things:(1)LEED will need to advance its gold or platinum certification requirements,or potentially become less relevant;or(2)local ordinances should reference or adopt CalGreen Tier 2 so that there is common language between local and state regulations.This article identifies that LEED has the most stringent guidelines under the Building Site section out of all the publications.Likewise,the IGCC and Standard 189.1 have provisions under the Water Use section,that goes beyond other publications.Additionally,similar language between LEED and Standard 189.1 was found,which was unsurprising as both publications are authored by the USGBC.展开更多
Based on continuous systems, the tracking problems for state regulator are discussed in this paper. The disadvantages of the current state regulators are pointed out with integrator, and a new kind of state PI regulat...Based on continuous systems, the tracking problems for state regulator are discussed in this paper. The disadvantages of the current state regulators are pointed out with integrator, and a new kind of state PI regulator is presented.展开更多
In recent decades, acupuncture has been used more widely and extensively in the United States (U.S.). However, there have been no national surveys or analyses reported in academic journals on the number of practicin...In recent decades, acupuncture has been used more widely and extensively in the United States (U.S.). However, there have been no national surveys or analyses reported in academic journals on the number of practicing or licensed acupuncturists, This study was conducted to identify the approximate number of licensed acupuncturists active in 2015. The Board of Acupuncture or Board of Medicine in each state or U.S. territory was contacted to collect data, Online license information searching was also performed in order to get accurate numbers of licensed acupuncturists for those states in which a board was unable to be contacted. The study found that the number of licensed acupuncturists in 2015 in the U,S, was 34,481. Of this, more than 50% were licensed in three states alone: California (32.39%), New York (11,89%) and Florida (7.06%). The number of licensed acupuncturists increased 23.30% and 52.09%, compared to the year 2009 (n = 27,965) and 2004 (n = 22,671), respectively; increasing about 1,266 per year. There were 62 and 10 accredited acupuncture institutions providing master and doctoral degrees, respectively. The West Coast comprised 51.39% of degree granting programs, while the East Coast comprised 29.17%; together the coastal states housed more than 80% of all programs, with the remainder sprinkled across the southern (9.72%), northern (8.33%), and the middle/central states (1.39%). Forty-four states and the District of Columbia regulated acupuncture practice by law at the time of data collection. Acupuncture continues to be a quickly growing profession in the U.S,展开更多
In this paper, we consider the optimal control of singularly perturbed nonlinear state regulator by diagonalization techniques. Under the suitable conditions we proved that the given problem has a unique solution (ξ...In this paper, we consider the optimal control of singularly perturbed nonlinear state regulator by diagonalization techniques. Under the suitable conditions we proved that the given problem has a unique solution (ξ(t,ε,h0), η(t,ε.h0)), moreover, the optimal control u0(t) and the optimal cost J (e) are given as well.展开更多
The residual of oxidant chemicals in advanced oxidation processes(AOPs)resulted in both economic cost and secondary pollution.Herein,we report a direct oxidation of phenolic pollutants induced by Ca-Mn-O perovskites w...The residual of oxidant chemicals in advanced oxidation processes(AOPs)resulted in both economic cost and secondary pollution.Herein,we report a direct oxidation of phenolic pollutants induced by Ca-Mn-O perovskites without using an oxidant.Governed by one-electron transfer process(ETP)from the phenolics to the Ca-Mn-O perovskites,this direct oxidation proceeds in fast reaction kinetics with activation energy of 51.4 kJ/mol,which was comparable with those AOPs-based catalytic systems.Additionally,mineralization and polymerization reactions occurred on the Ca-Mn-O surface and ensured the complete removal of phenolics.The high spin state Mn(III)within Ca-Mn-O structure was the dominant active site for this ETP.The elongated axial Mn(III)–O bonds within the[MnO_(6)]octahedron facilitated the acceptance of the electrons from the phenolics and thus promoted the initiation of the direct oxidation process.Mn(III)in the high spin state can also activate dissolved O_(2)to produce singlet oxygen(^(1)O_(2))for a fast removal of phenolics.The mixed Mn(III)/Mn(IV)within Ca-Mn-O accelerated the ETP by enhancing the electrical conductivity.This efficient Ca-Mn-O-induced ETP for removal of organic contaminants casts off the dependence on external chemical and energy inputs and provides a sustainable approach for transforming the toxic organic pollutants into value-added polymers.展开更多
直接乙醇燃料电池的效率与阳极乙醇氧化反应(EOR)C1路径选择性密切相关,然而C-C键断裂的能垒较高,使得C1路径产物选择性低,从而限制了直接乙醇燃料电池效率的提升.设计具有高C-C裂解效率的电催化剂,对于构建高效直接乙醇燃料电池具有重...直接乙醇燃料电池的效率与阳极乙醇氧化反应(EOR)C1路径选择性密切相关,然而C-C键断裂的能垒较高,使得C1路径产物选择性低,从而限制了直接乙醇燃料电池效率的提升.设计具有高C-C裂解效率的电催化剂,对于构建高效直接乙醇燃料电池具有重要意义.本文报道了一种Mott-Schottky异质结调节催化活性中心电子状态从而促进EOR过程中C-C裂解的新策略.我们以PdAu合金纳米颗粒(NPs)为模型催化剂,制备了PdAu@N_(x)C金属-碳Mott-Schottky异质结构.PdAu NPs(15.9±1.9 nm)均匀地分散在N掺杂的碳载体上.我们通过在宽范围内调节N掺杂量,调控异质结界面电势,形成了不同程度的电荷分离.通过催化剂结构与性能研究,建立了反应活性与催化剂功函数之间的线性关系,表明金属/碳界面电子转移可以有效促进EOR.优化的催化剂PdAu@N10.69C,显示出高C1产物选择性(FE=51.1%),质量活性(MA=9.7 A mg Pd^(-1))和比活性(SA=13.2 mA cm^(-2)),优于PdAu@C和大多数报道的Pd基EOR催化剂.实验结果和理论计算表明,N的引入促进了电子由碳层向PdAu转移,加强了对*CH_(3)CO的吸附,从而提高了C-C键的断裂效率.这项工作为整流策略提高EOR性能提供了一种新的研究思路.展开更多
基金financially supported by the National Natural Science Foundation of China(Grant Nos.22178148,22278193,22075113)the Jiangsu Province and Education Ministry Co-Sponsored Synergistic Innovation Center of Modern Agricultural Equipment(Grant No.XTCX2029)+1 种基金a Project Funded by the Priority Academic Program Development of Jiangsu Higher Education Institutionsthe Postgraduate Research&Practice Innovation Program of Jiangsu Province(Grant No.KYCX22_3691)。
文摘Owing to the distinctive structural characteristics,vanadium nitride(VN)is highly regarded as a catalyst for oxygen reduction reaction(ORR)in zinc-air batteries(ZABs).However,VN exhibits limited intrinsic ORR activity due to the weak adsorption ability to O-containing species.Here,the S-doped VN anchored on N,S-doped multi-dimensional carbon(S-VN/Co/NS-MC)was constructed using the solvothermal and in-situ doping methods.Incorporating sulfur atoms into VN species alters the electron spin state of vanadium in the S-VN/Co/NS-MC for regulating the adsorption energy of vanadium sites to oxygen molecules.The introduced sulfur atoms polarize the V 3d_(z)^(2) electrons,shifting spin-down electrons closer to the Fermi level in the S-VN/Co/NS-MC.Consequently,the introduction of sulfur atoms into VN species enhances the adsorption energy of vanadium sites for oxygen molecules.The*OOH dissociation transitions from being unspontaneous on the VN surface to a spontaneous state on the S-doped VN surface.Then,the ORR barrier on the S-VN/Co/NS-MC surface is reduced.The S-VN/Co/NS-MC demonstrates a higher half-wave potential and limiting current density compared to the VN/Co/N-MC.The S-VN/Co/NS-MC-based liquid ZABs display a power density of 195.7 m W cm^(-2),a specific capacity of 815.7 m A h g^(-1),and a cycling stability exceeding 250 h.The S-VN/Co/NS-MC-based flexible ZABs are successfully employed to charge both a smart watch and a mobile phone.This approach holds promise for advancing the commercial utilization of VN-based catalysts in ZABs.
基金Project supported by the National Natural Science Foundation of Chinathe Natural Science Foundation of Fujian Province
文摘This paper, will seek the optimal control and corresponding trajectories of the singularly perturbed nonlinear state regulator problem. Under appropriate hypotheses. it will be possible to complete an asymptotic solution which is uniformly valid when e→0.
文摘With large-scale engineering projects being carried out in China, a large number of fossil localities have been discovered and excavated by responsible agencies, but still some important fossils of great value have been removed and smuggled into foreign countries. In the last three years, more than 1345 fossil specimens have been intercepted by Customs in Shenzhen, Shanghai, Tianjin, Beijing and elsewhere, and more than 5000 fossils, most of which are listed as key fossils,
文摘This article explores the challenges of financial sustainability faced by higher education institutions in the United States.Against a backdrop of stringent state and federal regulations coupled with a decline in financial support,institutions are grappling with a shifting landscape.The paper delves into the intricacies of state regulations and funding policies,highlighting their impact on educational establishments.Furthermore,strategies for financial sustainability,including student attraction and retention,are discussed.The article concludes by underscoring the duality of regulations as both challenges and essential resources,suggesting a potential shift towards greater autonomy and a reshaping of the educational landscape in response to modern challenges.
文摘Recently,decision has been made by the State Council onthe amendments to the Regulations for foreign Exchange Controlof the People’s Republic of China".The following amendments to the "Regulations Foreign Ex-change Control of the People’s Republic of China" are decided bythe State Council:1.Add an article and become Article five "No restriction bythe State as to regular international payment and transfer".2.Article 13 Clause one become Article 14 Clause one,amendto read "Foreign exchange of private use by individuals can be pur-chased within the prescribed limit amount.Foreign exchange ofprivate use by individuals in excess of the prescribed limit amount,an application has to be filed with the Administration of ExchangeControl,and foreign exchange can be purchased after
基金financially supported by the National Natural Science Foundation of China(Grant Nos.52105303 and 52025053)Natural Science Foundation of Jilin Province(No.20220101209JC)Foundation for Innovative Research Groups of the National Natural Science Foundation of China(No.52021003).
文摘Amplifying the intrinsic wettability of substrate material by changing the solid/liquid contact area is considered to be the main mechanism for controlling the wettability of rough or structured surfaces.Through theoretical analysis and experimental exploration,we have found that in addition to this wettability structure amplification effect,the surface structure also simultaneously controls surface wettability by regulating the wetting state via changing the threshold Young angles of the Cassie-Baxter and Wenzel wetting regions.This wetting state regulation effect provides us with an alternative strategy to overcome the inherent limitation in surface chemistry by tailoring surface structure.The wetting state regulation effect created by multi-scale hierarchical structures is quite significant and plays is a crucial role in promoting the superhydrophobicity,superhydrophilicity and the transition between these two extreme wetting properties,as well as stabilizing the Cassie-Baxter superhydrophobic state on the fabricated lotus-like hierarchically structured Cu surface and the natural lotus leaf.
基金supported by the National Key Research and Development Program of China(2016YFB0700205,2017YFA0403402,2019YFA0405602,2017YFA0204904)the National Natural Science Foundation of China(52002367,21673214,U1732272,U1632273,U1832165)+1 种基金the foundation from Users with Excellence Program of Hefei Science Center CAS(2020HSC-UE001)the Fundamental Research Funds for the Central Universities(WK2310000093)。
文摘Photodeposition is widely adopted for implanting metal/metal oxide cocatalysts on semiconductors.However,it is prerequisite that the photon energy should be sufficient to excite the host semiconductor.Here,we report a lower-energy irradiation powered deposition strategy for implanting CrO_(x) cocatalyst on TiO_(2).Excitingly,CrO_(x)-400 implanted under visible-light irradiation significantly promotes the CH4 evolution rate on TiO_(2)to 8.4μmolg·^(-1)h^(-1) with selectivity of98%from photocatalytic CO_(2)reduction,which is 15 times of that on CrO_(x)-200 implanted under UV-visible-light irradiation.Moreover,CrO_(x)-400 is identified to be composed of higher valence Cr species compared to CrO_(x)-200.This valence states regulation of Cr species is indicated to provide more active sites for CO_(2) adsorption/activation and to modulate the reaction mechanism from single Cr site to Cr-Cr dual sites,thus endowing the superior CH_(4)production.This work demonstrates an alternative strategy for constructing efficient metal oxides cocatalysts on wide bandgap semiconductor.
文摘There are five different publications that establish guidelines for sustainable building development that are examined in this report:(1)Leadership in Energy and Environmental Design(“LEED”);(2)CalGreen;(3)the International Green Construction Code(“IGCC”);(4)ASHRAE Standard 189.1(“Standard 189.1”);and(5)The San Francisco’s Green Building Ordinance(“SFGBO”).Having multiple publications can cause confusion among building developers,architects,engineers,building consultants,or various jurisdictions on what publication to follow,use,or reference in building development projects.This article will provide various parties involved in building development a thorough understanding of each publication and the similarities or differences between them,which will ultimately assist in identifying areas for all publications to improve.Specifically,this article demonstrates that the Material and Energy sections for all the publications must advance beyond the current requirements.Also,the comparison validates that CalGreen’s Tier 2 is similar to LEED’s local ordinances,like the SFGBO.This may mean two things:(1)LEED will need to advance its gold or platinum certification requirements,or potentially become less relevant;or(2)local ordinances should reference or adopt CalGreen Tier 2 so that there is common language between local and state regulations.This article identifies that LEED has the most stringent guidelines under the Building Site section out of all the publications.Likewise,the IGCC and Standard 189.1 have provisions under the Water Use section,that goes beyond other publications.Additionally,similar language between LEED and Standard 189.1 was found,which was unsurprising as both publications are authored by the USGBC.
文摘Based on continuous systems, the tracking problems for state regulator are discussed in this paper. The disadvantages of the current state regulators are pointed out with integrator, and a new kind of state PI regulator is presented.
文摘In recent decades, acupuncture has been used more widely and extensively in the United States (U.S.). However, there have been no national surveys or analyses reported in academic journals on the number of practicing or licensed acupuncturists, This study was conducted to identify the approximate number of licensed acupuncturists active in 2015. The Board of Acupuncture or Board of Medicine in each state or U.S. territory was contacted to collect data, Online license information searching was also performed in order to get accurate numbers of licensed acupuncturists for those states in which a board was unable to be contacted. The study found that the number of licensed acupuncturists in 2015 in the U,S, was 34,481. Of this, more than 50% were licensed in three states alone: California (32.39%), New York (11,89%) and Florida (7.06%). The number of licensed acupuncturists increased 23.30% and 52.09%, compared to the year 2009 (n = 27,965) and 2004 (n = 22,671), respectively; increasing about 1,266 per year. There were 62 and 10 accredited acupuncture institutions providing master and doctoral degrees, respectively. The West Coast comprised 51.39% of degree granting programs, while the East Coast comprised 29.17%; together the coastal states housed more than 80% of all programs, with the remainder sprinkled across the southern (9.72%), northern (8.33%), and the middle/central states (1.39%). Forty-four states and the District of Columbia regulated acupuncture practice by law at the time of data collection. Acupuncture continues to be a quickly growing profession in the U.S,
文摘In this paper, we consider the optimal control of singularly perturbed nonlinear state regulator by diagonalization techniques. Under the suitable conditions we proved that the given problem has a unique solution (ξ(t,ε,h0), η(t,ε.h0)), moreover, the optimal control u0(t) and the optimal cost J (e) are given as well.
基金the National Natural Science Foundation of China(Nos.21978324 and 22278436)the Science Foundation of China University of Petroleum,Beijing(No.2462021QNXZ009).
文摘The residual of oxidant chemicals in advanced oxidation processes(AOPs)resulted in both economic cost and secondary pollution.Herein,we report a direct oxidation of phenolic pollutants induced by Ca-Mn-O perovskites without using an oxidant.Governed by one-electron transfer process(ETP)from the phenolics to the Ca-Mn-O perovskites,this direct oxidation proceeds in fast reaction kinetics with activation energy of 51.4 kJ/mol,which was comparable with those AOPs-based catalytic systems.Additionally,mineralization and polymerization reactions occurred on the Ca-Mn-O surface and ensured the complete removal of phenolics.The high spin state Mn(III)within Ca-Mn-O structure was the dominant active site for this ETP.The elongated axial Mn(III)–O bonds within the[MnO_(6)]octahedron facilitated the acceptance of the electrons from the phenolics and thus promoted the initiation of the direct oxidation process.Mn(III)in the high spin state can also activate dissolved O_(2)to produce singlet oxygen(^(1)O_(2))for a fast removal of phenolics.The mixed Mn(III)/Mn(IV)within Ca-Mn-O accelerated the ETP by enhancing the electrical conductivity.This efficient Ca-Mn-O-induced ETP for removal of organic contaminants casts off the dependence on external chemical and energy inputs and provides a sustainable approach for transforming the toxic organic pollutants into value-added polymers.
基金supported by the National Natural Science Foundation of China(22278108,22008048)the Hundred Talents Project of Hebei Province(E2019050015)+3 种基金the Natural Science Foundation of Tianjin(22JCYBJC00250)the Natural Science Foundation for Outstanding Youth Scholars of Hebei Province(B2021202061)the Natural Science Foundation of Hebei Province(B2021202010)the State Key Laboratory of Fine Chemicals,Dalian University of Technology(KF 2108)。
文摘直接乙醇燃料电池的效率与阳极乙醇氧化反应(EOR)C1路径选择性密切相关,然而C-C键断裂的能垒较高,使得C1路径产物选择性低,从而限制了直接乙醇燃料电池效率的提升.设计具有高C-C裂解效率的电催化剂,对于构建高效直接乙醇燃料电池具有重要意义.本文报道了一种Mott-Schottky异质结调节催化活性中心电子状态从而促进EOR过程中C-C裂解的新策略.我们以PdAu合金纳米颗粒(NPs)为模型催化剂,制备了PdAu@N_(x)C金属-碳Mott-Schottky异质结构.PdAu NPs(15.9±1.9 nm)均匀地分散在N掺杂的碳载体上.我们通过在宽范围内调节N掺杂量,调控异质结界面电势,形成了不同程度的电荷分离.通过催化剂结构与性能研究,建立了反应活性与催化剂功函数之间的线性关系,表明金属/碳界面电子转移可以有效促进EOR.优化的催化剂PdAu@N10.69C,显示出高C1产物选择性(FE=51.1%),质量活性(MA=9.7 A mg Pd^(-1))和比活性(SA=13.2 mA cm^(-2)),优于PdAu@C和大多数报道的Pd基EOR催化剂.实验结果和理论计算表明,N的引入促进了电子由碳层向PdAu转移,加强了对*CH_(3)CO的吸附,从而提高了C-C键的断裂效率.这项工作为整流策略提高EOR性能提供了一种新的研究思路.
