Here we report a dual-functionalized electrochemical substrate to trigger cancer cells release based on the supramolecular interaction between β-cyclodextrin (β-CD) and Fc on clinical trial II aptamer AS1411 funct...Here we report a dual-functionalized electrochemical substrate to trigger cancer cells release based on the supramolecular interaction between β-cyclodextrin (β-CD) and Fc on clinical trial II aptamer AS1411 functionalized graphene platform. On one hand, the host-guest interaction can be reversible electrochemically controlled to realize cancer cells capture/release, and 1-adamantylamine binding can further amplify this surface change by competing interaction with β-CD. On the other hand, the AS1411 aptamer and its complementary DNA (cDNA) also can be used as a switchable anchor for cell adhesion. Our work gives an example for label-free, multi-functionalized triggered cell release based on aptamer and β-CD/graphene-modified surface and this multi-ways for cell catch-and-release on graphene modified surface also provides their potential biomedical application.展开更多
Surface tailoring of Pt-based nanocatalysts is an effective pathway to promote their electrocatalytic performance and multifunctionality.Here,we report two kinds of one-dimensional(1D)ultrafine PtCu nanowires(smooth s...Surface tailoring of Pt-based nanocatalysts is an effective pathway to promote their electrocatalytic performance and multifunctionality.Here,we report two kinds of one-dimensional(1D)ultrafine PtCu nanowires(smooth surface&rugged surface)synthesized via a wet chemical method and their distinct catalytic performances in electro-oxidation of alcohols.The alloyed PtCu nanowires having rough surfaces with atomic steps exhibit superior catalytic activity toward multiple electrochemical reactions compared with the smooth counterpart.Density functional theory simulations show the excellent reactivity of rugged PtCu na-nowires and attribute it to the surface synergetic Pt-Cu site which accounts for the promotion of water dissociation and the dehydrogenation of the carboxyl intermediate.The current study provides an insight into reasonable design of alloy nanocatalysts in energy-related electrocatalytic systems.展开更多
An electrochemiluminescent (ECL) biosensor was constructed for selective assay of alanine aminotransferase (ALT) based on the enzymatically catalyzed oxidation of pyruvate by pyruvate oxidase (PYOD). The composite of ...An electrochemiluminescent (ECL) biosensor was constructed for selective assay of alanine aminotransferase (ALT) based on the enzymatically catalyzed oxidation of pyruvate by pyruvate oxidase (PYOD). The composite of potassium ferricyanide and carbon nanotube was adopted to pre-functionalize the basal platinum electrode while the potassium ferricyanide acted as the activator of PYOD. The ALT catalyzed the reaction of L-alanine and-ketoglutarate to produce pyruvate which could be further enzymatically oxidized by PYOD to yield H2O2 to intensify the ECL of luminol. The biosensor showed rapid response for real-time measurement of ALT in the linear concentration range from 0.00475 to 350 U/L (r = 0.993) with a relatively standard deviation of 2.5% (CALT = 47.5 U/L,n = 6). The biosensor was applied to assay the ALT in rat serum with average recovery of 90.5%.展开更多
文摘Here we report a dual-functionalized electrochemical substrate to trigger cancer cells release based on the supramolecular interaction between β-cyclodextrin (β-CD) and Fc on clinical trial II aptamer AS1411 functionalized graphene platform. On one hand, the host-guest interaction can be reversible electrochemically controlled to realize cancer cells capture/release, and 1-adamantylamine binding can further amplify this surface change by competing interaction with β-CD. On the other hand, the AS1411 aptamer and its complementary DNA (cDNA) also can be used as a switchable anchor for cell adhesion. Our work gives an example for label-free, multi-functionalized triggered cell release based on aptamer and β-CD/graphene-modified surface and this multi-ways for cell catch-and-release on graphene modified surface also provides their potential biomedical application.
基金financial support from the National Natural Science Foundation of China(21571001,21631001U1532141)+2 种基金the Ministry of Education,and the Education Department of AnhuiSouthern University of Science and Technology(SUSTech),China(2020B121201002)the computational resource support from the Center for Computational Science and Engineering at SUSTech。
文摘Surface tailoring of Pt-based nanocatalysts is an effective pathway to promote their electrocatalytic performance and multifunctionality.Here,we report two kinds of one-dimensional(1D)ultrafine PtCu nanowires(smooth surface&rugged surface)synthesized via a wet chemical method and their distinct catalytic performances in electro-oxidation of alcohols.The alloyed PtCu nanowires having rough surfaces with atomic steps exhibit superior catalytic activity toward multiple electrochemical reactions compared with the smooth counterpart.Density functional theory simulations show the excellent reactivity of rugged PtCu na-nowires and attribute it to the surface synergetic Pt-Cu site which accounts for the promotion of water dissociation and the dehydrogenation of the carboxyl intermediate.The current study provides an insight into reasonable design of alloy nanocatalysts in energy-related electrocatalytic systems.
基金supported by the National Natural Science Foundation of China (20275025 & 20675055)the Natural Science Fundation of Jiangsu Province (BK2009111)Technology Plan of Suzhou (SYJG0901)
文摘An electrochemiluminescent (ECL) biosensor was constructed for selective assay of alanine aminotransferase (ALT) based on the enzymatically catalyzed oxidation of pyruvate by pyruvate oxidase (PYOD). The composite of potassium ferricyanide and carbon nanotube was adopted to pre-functionalize the basal platinum electrode while the potassium ferricyanide acted as the activator of PYOD. The ALT catalyzed the reaction of L-alanine and-ketoglutarate to produce pyruvate which could be further enzymatically oxidized by PYOD to yield H2O2 to intensify the ECL of luminol. The biosensor showed rapid response for real-time measurement of ALT in the linear concentration range from 0.00475 to 350 U/L (r = 0.993) with a relatively standard deviation of 2.5% (CALT = 47.5 U/L,n = 6). The biosensor was applied to assay the ALT in rat serum with average recovery of 90.5%.
