The incorporation of heteroatoms into carbon aerogels(CAs)can lead to structural distortions and changes in active sites due to their smaller size and electronegativity compared to pure carbon.However,the evolution of...The incorporation of heteroatoms into carbon aerogels(CAs)can lead to structural distortions and changes in active sites due to their smaller size and electronegativity compared to pure carbon.However,the evolution of the electronic structure from single-atom doping to heteroatom codoping in CAs has not yet been thoroughly investigated,and the impact of codoping on potassium ion(K+)storage and diffusion pathways as electrode material remains unclear.In this study,experimental and theoretical simulations were conducted to demonstrate that heteroatom codoping,composed of multiple heteroatoms(O/N/B)with different properties,has the potential to improve the electrical properties and stability of CAs compared to single-atom doping.Electronic states near the Fermi level have revealed that doping with O/N/B generates a greater number of active centers on adjacent carbon atoms than doping with O and O/N atoms.As a result of synergy with enhanced wetting ability(contact angle of 9.26°)derived from amino groups and hierarchical porous structure,ON-CA has the most optimized adsorption capacity(−1.62 eV)and diffusion barrier(0.12 eV)of K^(+).The optimal pathway of K^(+)in ON-CA is along the carbon ring with N or O doping.As K^(+)storage material for supercapacitors and ion batteries,it shows an outstanding specific capacity and capacitance,electrochemical stability,and rate performance.Especially,the assembled symmetrical K^(+)supercapacitor demonstrates an energy density of 51.8 Wh kg^(−1),an ultrahigh power density of 443Wkg^(−1),and outstanding cycling stability(maintaining 83.3%after 10,000 cycles in 1M KPF6 organic electrolyte).This research provides valuable insights into the design of highperformance potassium ion storage materials.展开更多
【目的】明确多效唑(PP333)与水杨酸(SA)、茉莉酸(JA)、壳聚糖(CTS)和苯并噻二唑(BTH)等药物互作对香蕉苗生长及抗病性的影响,为利用诱抗剂防控香蕉枯萎病(Fusarium wilt of banana)提供参考依据。【方法】以香蕉品种‘宝岛蕉’组培杯...【目的】明确多效唑(PP333)与水杨酸(SA)、茉莉酸(JA)、壳聚糖(CTS)和苯并噻二唑(BTH)等药物互作对香蕉苗生长及抗病性的影响,为利用诱抗剂防控香蕉枯萎病(Fusarium wilt of banana)提供参考依据。【方法】以香蕉品种‘宝岛蕉’组培杯苗为试验材料,叶面喷施PP333(A处理)及4种常用诱抗剂单剂(B、C、D和E处理)和双剂(A+B、A+C、A+D和A+E处理),以喷清水为对照(CK),结合伤根浸菌接种法,比较分析各处理香蕉苗的生长状况、抗枯萎病能力和防御酶活性。【结果】处理后30 d,各药物处理香蕉苗的株高均显著低于CK(P<0.05,下同),茎粗总体上高于CK。其中,双剂处理中以PP333配施BTH的株高最低,较CK显著降低31.84%,以PP333配施JA的茎粗最粗,较CK显著增加20.55%。双剂处理香蕉苗的地上部干物质量均显著低于CK,降幅为2.46%~5.74%,根系干物质量较CK显著提高39.02%~43.90%。各药物处理香蕉苗期的枯萎病病情指数均显著低于CK,其中PP333配施BTH和CTS对香蕉枯萎病的诱抗效果较佳,分别达57.63%和50.85%;双剂处理对诱导香蕉苗体内抗性相关酶活性的效应明显,其中,PP333分别配施BTH和CTS,其苯丙氨酸解氨酶(PAL)活性较CK分别提高54.59%~101.69%和42.09%~103.50%,多酚氧化酶(PPO)活性分别提高77.29%~228.77%和66.07%~267.65%,过氧化物酶(POD)活性分别提高121.82%~204.16%和54.31%~117.55%,超氧化物歧化酶(SOD)活性分别提高107.45%~263.51%和110.00%~301.07%,CAT活性分别提高141.95%~442.16%和192.68%~304.70%。【结论】PP333与诱抗剂互作可提高香蕉苗防御酶活性,壮苗效果好,对香蕉枯萎病具有良好的诱抗效果。其中,PP333与BTH和CTS配施的诱导效果更佳,具有生产应用前景。展开更多
基金financially supported by the Natural Science Foundation of China(Grant No.22005165)the Major Science and Technology Innovation Project of Shandong(Grant No.2019JZZY010507)+1 种基金the Qingdao Municipal Science and Technology Bureau(Grant No.17-1-1-86-jch)the Key Technology Research and Development Program of Shandong(Grant No.2018GGX108005).
文摘The incorporation of heteroatoms into carbon aerogels(CAs)can lead to structural distortions and changes in active sites due to their smaller size and electronegativity compared to pure carbon.However,the evolution of the electronic structure from single-atom doping to heteroatom codoping in CAs has not yet been thoroughly investigated,and the impact of codoping on potassium ion(K+)storage and diffusion pathways as electrode material remains unclear.In this study,experimental and theoretical simulations were conducted to demonstrate that heteroatom codoping,composed of multiple heteroatoms(O/N/B)with different properties,has the potential to improve the electrical properties and stability of CAs compared to single-atom doping.Electronic states near the Fermi level have revealed that doping with O/N/B generates a greater number of active centers on adjacent carbon atoms than doping with O and O/N atoms.As a result of synergy with enhanced wetting ability(contact angle of 9.26°)derived from amino groups and hierarchical porous structure,ON-CA has the most optimized adsorption capacity(−1.62 eV)and diffusion barrier(0.12 eV)of K^(+).The optimal pathway of K^(+)in ON-CA is along the carbon ring with N or O doping.As K^(+)storage material for supercapacitors and ion batteries,it shows an outstanding specific capacity and capacitance,electrochemical stability,and rate performance.Especially,the assembled symmetrical K^(+)supercapacitor demonstrates an energy density of 51.8 Wh kg^(−1),an ultrahigh power density of 443Wkg^(−1),and outstanding cycling stability(maintaining 83.3%after 10,000 cycles in 1M KPF6 organic electrolyte).This research provides valuable insights into the design of highperformance potassium ion storage materials.
文摘【目的】明确多效唑(PP333)与水杨酸(SA)、茉莉酸(JA)、壳聚糖(CTS)和苯并噻二唑(BTH)等药物互作对香蕉苗生长及抗病性的影响,为利用诱抗剂防控香蕉枯萎病(Fusarium wilt of banana)提供参考依据。【方法】以香蕉品种‘宝岛蕉’组培杯苗为试验材料,叶面喷施PP333(A处理)及4种常用诱抗剂单剂(B、C、D和E处理)和双剂(A+B、A+C、A+D和A+E处理),以喷清水为对照(CK),结合伤根浸菌接种法,比较分析各处理香蕉苗的生长状况、抗枯萎病能力和防御酶活性。【结果】处理后30 d,各药物处理香蕉苗的株高均显著低于CK(P<0.05,下同),茎粗总体上高于CK。其中,双剂处理中以PP333配施BTH的株高最低,较CK显著降低31.84%,以PP333配施JA的茎粗最粗,较CK显著增加20.55%。双剂处理香蕉苗的地上部干物质量均显著低于CK,降幅为2.46%~5.74%,根系干物质量较CK显著提高39.02%~43.90%。各药物处理香蕉苗期的枯萎病病情指数均显著低于CK,其中PP333配施BTH和CTS对香蕉枯萎病的诱抗效果较佳,分别达57.63%和50.85%;双剂处理对诱导香蕉苗体内抗性相关酶活性的效应明显,其中,PP333分别配施BTH和CTS,其苯丙氨酸解氨酶(PAL)活性较CK分别提高54.59%~101.69%和42.09%~103.50%,多酚氧化酶(PPO)活性分别提高77.29%~228.77%和66.07%~267.65%,过氧化物酶(POD)活性分别提高121.82%~204.16%和54.31%~117.55%,超氧化物歧化酶(SOD)活性分别提高107.45%~263.51%和110.00%~301.07%,CAT活性分别提高141.95%~442.16%和192.68%~304.70%。【结论】PP333与诱抗剂互作可提高香蕉苗防御酶活性,壮苗效果好,对香蕉枯萎病具有良好的诱抗效果。其中,PP333与BTH和CTS配施的诱导效果更佳,具有生产应用前景。