The artificial nitrogen(N_(2)) reduction reaction(NRR) via electrocatalysis is a newly developed methodology to produce ammonia(NH3) at ambient conditions,but faces the challenges in N_(2)activation and poor reaction ...The artificial nitrogen(N_(2)) reduction reaction(NRR) via electrocatalysis is a newly developed methodology to produce ammonia(NH3) at ambient conditions,but faces the challenges in N_(2)activation and poor reaction selectivity.Herein,Nb-based MXenes are developed to remarkably enhance the NRR activity through the engineering of the stretched 3D structure and oxygen vacancies(VO).The theoretical studies indicate that N_(2)could be initially adsorbed on VOwith an end-on configuration,and the potential determining step might be the first hydrogenation step.The catalysts achieve an NH3production rate of 29.1 μg h^(-1)mg_(cat)^(-1)and excellent Faradic efficiency of 11.5%,surpassing other Nbbased catalysts.The selectivity of NRR is assigned to the unique structure of the catalysts,including(1) the layered graphitic structure for fast electron transfer and active site distribution,(2) the reactive VOfor N_(2)adsorption and activation,and(3) the expanded interlayer space for mass transfer.展开更多
One of the critical problems in bladder cancer(BC)management is the local recurrence of disease.However,achieving the accurate delineation of tumor margins intraoperatively remains extremely difficult due to the lack ...One of the critical problems in bladder cancer(BC)management is the local recurrence of disease.However,achieving the accurate delineation of tumor margins intraoperatively remains extremely difficult due to the lack of effective tumor margin recognition technology.Herein,survivin molecular beacon(MB)and R11 peptide-linked spherical nucleic acids(SNAs)were synthesized as nanoprobes(AuNP-MB@R11)for sensitive detection of BC margins.Physicochemical properties proved that R11 peptides and survivin MB were successfully loaded onto the surface of SNAs.AuNP-MB@R11 had good stability against nuclease activity and high sensitivity and specificity to detect survivin single strand DNA(ssDNA)in vitro.According to cytology,R11 peptides could increase the BC targeting ability and membrane penetrability of SNAs.Notably,R11 peptides significantly promoted the disintegration of lysosomes and the release of SNAs to enhance fluorescence imaging quality.Further RNA sequencing proved that some genes and pathways related to endocytosis and lysosomes were significantly regulated,such as AGPAT5,GPD1L,and GRB2.In orthotopic BC models and a clinical sample from a patient with BC,AuNP-MB@R11 showed a more legible cancerous fluorescence margin and offered remarkably improved detection compared to those achieved by SNAs.R11 peptide-linked SNAs present promising potential to identify BC margin,which may help to improve the R0 resection rate in surgery and improve patients’quality of life.展开更多
基金financially supported by China Postdoctoral Science Foundation (2019M652305)Qingdao Postdoctoral Application Research Project。
文摘The artificial nitrogen(N_(2)) reduction reaction(NRR) via electrocatalysis is a newly developed methodology to produce ammonia(NH3) at ambient conditions,but faces the challenges in N_(2)activation and poor reaction selectivity.Herein,Nb-based MXenes are developed to remarkably enhance the NRR activity through the engineering of the stretched 3D structure and oxygen vacancies(VO).The theoretical studies indicate that N_(2)could be initially adsorbed on VOwith an end-on configuration,and the potential determining step might be the first hydrogenation step.The catalysts achieve an NH3production rate of 29.1 μg h^(-1)mg_(cat)^(-1)and excellent Faradic efficiency of 11.5%,surpassing other Nbbased catalysts.The selectivity of NRR is assigned to the unique structure of the catalysts,including(1) the layered graphitic structure for fast electron transfer and active site distribution,(2) the reactive VOfor N_(2)adsorption and activation,and(3) the expanded interlayer space for mass transfer.
基金the National Natural Science Foundation of China(No.81901838)Key research and development plan in Shaanxi province(Nos.2020SF-123 and 2020SF-195)+1 种基金Medical Technology Plan of Zhejiang Province(No.2021KY042)Medical research program of department of science and technology of Xi’an,Shaanxi Province(No.2019115713YX012SF048(4)).
文摘One of the critical problems in bladder cancer(BC)management is the local recurrence of disease.However,achieving the accurate delineation of tumor margins intraoperatively remains extremely difficult due to the lack of effective tumor margin recognition technology.Herein,survivin molecular beacon(MB)and R11 peptide-linked spherical nucleic acids(SNAs)were synthesized as nanoprobes(AuNP-MB@R11)for sensitive detection of BC margins.Physicochemical properties proved that R11 peptides and survivin MB were successfully loaded onto the surface of SNAs.AuNP-MB@R11 had good stability against nuclease activity and high sensitivity and specificity to detect survivin single strand DNA(ssDNA)in vitro.According to cytology,R11 peptides could increase the BC targeting ability and membrane penetrability of SNAs.Notably,R11 peptides significantly promoted the disintegration of lysosomes and the release of SNAs to enhance fluorescence imaging quality.Further RNA sequencing proved that some genes and pathways related to endocytosis and lysosomes were significantly regulated,such as AGPAT5,GPD1L,and GRB2.In orthotopic BC models and a clinical sample from a patient with BC,AuNP-MB@R11 showed a more legible cancerous fluorescence margin and offered remarkably improved detection compared to those achieved by SNAs.R11 peptide-linked SNAs present promising potential to identify BC margin,which may help to improve the R0 resection rate in surgery and improve patients’quality of life.
