[1] Zhao L,Zhang F,Ding X,et al.Gut bacteria selectively promoted by dietary fibers alleviate type 2 diabetes[J].Science,2018,359(6380):1151-1156.
[2] Huang D,Wang X,Zhang C,et al.Sorptive removal of ionizable antibiotic sulfamethazine from aqueous solution by graphene oxide-coated biochar nanocomposites:influencing factors and mechanism[J].Chemosphere,2017,186:414-421.
[3] Bommer C,Sagalova V,Heesemann E,et al.Global economic burden of diabetes in adults:projections from 2015 to 2030[J].Diabetes Care,2018,41(5):963-970.
[4] Xie F Y,Cao X Q,Qu F L,et al.Cobalt nitride nanowire array as an efficient electrochemical sensor for glucose and H2O2 detection[J].Sensors and Actuators B-Chemical,2018,255:1254-1261.
[5] Hao N,Zhang X,Zhou Z,et al.AgBr nanoparticles/3D nitrogen-doped graphene hydrogel for fabricating all-solid-state luminol-electrochemiluminescence Escherichia coli aptasensors[J].Biosensors and Bioelectronics,2017,97:377-383.
[6] Hua R,Hao N,Lu J,et al.A sensitive potentiometric resolved ratiometric photoelectrochemical aptasensor for escherichia coli detection fabricated with non-metallic nanomaterials[J].Biosensors and Bioelectronics,2018,106:57-63.
[7] Zhou Z,Hao N,Zhang Y,et al.A novel universal colorimetric sensor for simultaneous dual target detection through DNA-directed self-assembly of graphene oxide and magnetic separation[J].Chemical Communications,2017,53(52):7096-7099.
[8] Qin L,Zeng G,Lai C,et al.“Gold rush” in modern science:fabrication strategies and typical advanced applications of gold nanoparticles in sensing[J].Coordination Chemistry Reviews,2018,359:1-31.
[9] Hao N,Zhang X,Zhou Z,et al.Three-dimensional nitrogen-doped graphene porous hydrogel fabricated biosensing platform with enhanced photoelectrochemical performance[J].Sensors and Actuators B-Chemical,2017,250:476-483.
[10] Hao N,Hua R,Chen S,et al.Multiple signal-amplification via Ag and TiO2,decorated 3D nitrogen doped graphene hydrogel for fabricating sensitive label-free photoelectrochemical thrombin aptasensor[J].Biosensors and Bioelectronics,2018,101:14-20.
[11] Huang D,Guo X,Peng Z,et al.White rot fungi and advanced combined biotechnology with nanomaterials:promising tools for endocrine-disrupting compounds biotransformation[J].Crit Rev Biotechnol,2018,38(5):671-689.
[12] Wei H,Wang E K.Nanomaterials with enzyme-like characteristics (nanozymes):next-generation artificial enzymes[J].Chemical Society Reviews,2013,42(14):6060-6093.
[13] Wu J J X,Wang X Y,Wang Q,et al.Nanomaterials with enzyme-like characteristics (nanozymes):next-generation artificial enzymes(Ⅱ)[J].Chemical Society Reviews,2019,48(4):1004-1076.
[14] Gao L,Zhuang J,Nie L,et al.Intrinsic peroxidase-like activity of ferromagnetic nanoparticles[J].Nature Nanotechnology,2007,2(9):577-583.
[15] Huang D L,Liu X G,Lai C,et al.Colorimetric determination of mercury(Ⅱ) using gold nanoparticles and double ligand exchange[J].Microchimica Acta,2019,186(1):31-38.
[16] Li B,Lai C,Zeng G,et al.Facile hydrothermal synthesis of Z-scheme Bi2Fe4O9/Bi2WO6 heterojunction photocatalyst with enhanced visible light photocatalytic activity[J].ACS Applied Materials & Interfaces,2018,10(22):18824-18836.
[17] Liu Y,Yu F.Substrate-specific modifications on magnetic iron oxide nanoparticles as an artificial peroxidase for improving sensitivity in glucose detection[J].Nanotechnology,2011,22(14):145704.
[18] Chen M,Sun L,Ding Y,et al.N,N′-di-carboxymethyl perylene diimide functionalized magnetic nanocomposites with enhanced peroxidase-like activity for colorimetric sensing of H2O2 and glucose[J].New Journal of Chemistry,2017,41(13):5853-5862.
[19] Chen W,Chen J,Liu A L,et al.Peroxidase-like activity of cupric oxide nanoparticle[J].Chemcatchem,2011,3(7):1151-1154.
[20] Ding Y A,Chen M M,Wu K L,et al.High-performance peroxidase mimics for rapid colorimetric detection of H2O2 and glucose derived from perylene diimides functionalized Co3O4 nanoparticles[J].Materials Science & Engineering C-Materials for Biological Applications,2017,80:558-565.
[21] Liu Q,Yang Y,Lv X,et al.One-step synthesis of uniform nanoparticles of porphyrin functionalized ceria with promising peroxidase mimetics for H2O2,and glucose colorimetric detection[J].Sensors & Actuators B Chemical,2017,240:726-734.
[22] Chen W,Chen J,Liu A L,et al.Peroxidase-like activity of cupric oxide nanoparticle[J].Chemcatchem,2011,3(7):1151-1154.
[23] Sun J H,Li CY,Qi Y F,et al.Optimizing colorimetric assay based on V2O5 nanozymes for sensitive detection of H2O2 and glucose[J].Sensors,2016,16(4):584.
[24] Jv Y,Li B X,Cao R.Positively-charged gold nanoparticles as peroxidiase mimic and their application in hydrogen peroxide and glucose detection[J].Chemical Communications,2010,46(42):8017-8019.
[25] Jiang C F,Zhu J,Li Z,et al.Chitosan-gold nanoparticles as peroxidase mimic and their application in glucose detection in serum[J].RSC Advances,2017,7(70):44463-44469.
[26] Ma M,Zhang Y,Gu N.Peroxidase-like catalytic activity of cubic Pt nanocrystals[J].Colloids and Surfaces A:Physicochemical and Engineering Aspects,2011,373(1-3):6-10.
[27] Zhang Z,Berg A,Levanon H,et al.On the interactions of free radicals with gold nanoparticles[J].Journal of the American Chemical Society,2003,125(26):7959-7963.
[28] Harriman A,Millward G R,Neta P,et al.Interfacial electron-transfer reactions between platinum colloids and reducing radicals in aqueous solution[J].The Journal of Physical Chemistry,1988,92(5):1286-1290.
[29] Jin L,Meng Z,Zhang Y,et al.Ultrasmall Pt nanoclusters as robust peroxidase mimics for colorimetric detection of glucose in human serum[J].ACS Applied Materials & Interfaces,2017,9(11):10027-10033.
[30] Kang F,Hou X,Xu K.Highly sensitive colorimetric detection of glucose in a serum based on DNA-embeded Au@Ag core-shell nanoparticles[J].Nanotechnology,2015,26(40):405707.
[31] Yang Q H,Xu Q,Jiang H L.Metal-organic frameworks meet metal nanoparticles:synergistic effect for enhanced catalysis[J].Chemical Society Reviews,2017,46(15):4774-4808.
[32] Liu H Y,Ma H,Xu H X,et al.Hollow and porous nickel sulfide nanocubes prepared from a metal-organic framework as an efficient enzyme mimic for colorimetric detection of hydrogen peroxide[J].Analytical and Bioanalytical Chemistry,2019,411(1):129-137.
[33] Qin L,Wang X Y,Liu Y F,et al.2D-metal organic-framework-nanozyme sensor arrays for probing phosphates and their enzymatic hydrolysis[J].Analytical Chemistry,2019,91(13):8712-8713.
[34] Liu Y L,Zhao X J,Yang X X,et al.A nanosized metal-organic framework of Fe-MIL-88NH2 as a novel peroxidase mimic used for colorimetric detection of glucose[J].Analyst,2013,138(16):4526-4531.
[35] Liu F,He J,Zeng M,et al.Cu-hemin metal-organic frameworks with peroxidase-like activity as peroxidase mimics for colorimetric sensing of glucose[J].Journal of Nanoparticle Research,2016,18(5):106.
[36] Zheng H Q,Liu C Y,Zeng X Y,et al.MOF-808:a metal-organic framework with intrinsic peroxidase-like catalytic activity at neutral pH for colorimetric biosensing[J].Inorganic Chemistry,2018,57(15):9096-9104.