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Periodic

Materials
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    • Enzyme-like Activity
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    • Oxidase
    ref material application target method linear range linear range unit LOD LOD unit recovery comment
    4955 21 Fe-N/C Detection of alkaline phosphatase Alkaline phosphatase (ALP) Color 0.05-100 U/L 0.02 U/L
    4973 40 MoS2/g-C3N4 HNs sulfide ions sensing S2- Color 0.1-10 μM 37 μM
    4984 63 Co-based homobimetallic hollow nanocages detection acetylcholinesterase (AChE) Color 0.0001-1 mU/mL 0.1 mU/L
    4990 73 vanadium oxide nanodots (VOxNDs) Antibacterial
    4996 84 Co-V MMO nanowires Antibacterial
    5008 103 CeO2NRs-MOF the on-site determination of Cr(VI) in real water samples Cr(VI) Color 0.03−5 μM 20 nM 95%-105%
    5021 119 ZIF-67 L-Cys Fluor 0.05-6 μM 31 nM 98-103%
    5033 134 CTF-1 determination of rutin in tablets and in Flos Sophorae Immaturus rutin CL 0.03–0.25 μmol·L−1 0.015 μmol·L−1 The CL system gave a linear response to the concentration of rutin in the range of 0.03–0.25 μmol·L−1 with a limit of detection of 0.015 μmol·L−1.
    5034 134 CTF-1 determination of rutin in tablets and in Flos Sophorae Immaturus rutin CL 0.03–0.25 μmol·L−1 0.015 μmol·L−1
    5047 147 Fe3O4@Cu/GMP pollutant removal
    5050 149 NiO detection of P(III) P(III) Fluor 0-10 mM 1.46 μM
    5066 160 Fe-N-C It is interesting that Fe-N-C not only demonstrated the similar function of CYP3A4 in the metabolization of 1,4-DHP but also had avery high level of similarity in inhibiting interactions with other drugs
    5080 171 HS-PtNPs These obvious advantages prompted us to explore the practical use of HS-PtNPs. The pyridine ring of isoniazid has strong reductive hydrazyl substitution, which can compete with TMB for the catalytic site of HS-PtNPs (Scheme 1). The introduction of isoniazid in HS-PtNPs-catalyzed oxidation process of TMB results in a lower efficiency and colorless reaction in TMB oxidation. isoniazid Color 2.5-250 μM 1.7 μM 95%-103%
    5082 173 MoO3 NPs Acid phosphatase (ACP) catalyzes the hydrolysis of the ascorbic acid 2-phosphate (AAP) substrate to produce ascorbic acid (AA). AAwas found to fade the coloration process of the MoO3 NP-mediated ABTS oxidation. By combining the oxidase-mimicking property of the MoO3 NPs and the ACP-catalyzed hydrolysis ofAAP, a novel and simple colorimetric method for detecting ACP was established Acid phosphatase (ACP) Color 0.09-7.3 U/L 0.011 U/L 92-107.6%
    5116 203 paper-based sensor MiRNA Detection. miRNA-141 E-chem 0.002-170 pM 0.6 fM 97.0–110.0% the recoveries and RSD were in the range of 97.0–110.0 and 1.31–13.64%, suggesting a gratifying analysis capability of the proposed sensor for miRNA-141 in complex clinical samples.
    5115 203 paper-based sensor MiRNA Detection. miRNA-141 E-chem 0.002-170 pM 0.6 fM 97.0–110.0%
    5134 222 Hg2+/heparin–OsNPs detection of heparinase in human serum samples heparinase Color 20-1000 μg L-1 15 μg L-1
    5136 224 oxidized UiO-66(Ce/Zr) sensitive determination of Pi phosphate ion Color 20-666.7 μM 6.7 μM
    5137 224 oxidized UiO-66(Ce/Zr) sensitive determination of Pi phosphate ion Color 20-666.7 μM 6.7 μM ABTS channel colorimetric
    5138 224 oxidized UiO-66(Ce/Zr) sensitive determination of Pi phosphate ion Color 3.3-666.7 μM 1.1 μM Dual-channel ratiometric colorimetric
    5148 257 TiO2/C-QDs GSH detection GSH Color 0.5-25 μM 0.2 μM taking human serum as an example, the possibility of applying GSH colorimetry to actual biological samples wasexamined by standard addition methods.
    5147 257 TiO2/C-QDs GSH detection GSH Color 0.5-25 μM 0.2 μM
    5152 260 GSH@PtNPs Cu2+ detection Cu2+ Color 25-300 nM 6.8 nM
    5151 260 GSH@PtNPs Cu2+ detection Cu2+ Color 50-800 nM 7 nM Cu2+ ions in real human serum samples were detected
    5159 269 CMS NPs in vitro and in vivo treatment of MDR Bacterial Infections
    5161 271 Co3O4 nanoflowers detection of acid phosphatase Acid phosphatase (ACP) Color 0.1-25 U/L 0.062 U/L it is capable of detecting ACP in serum samples
    5162 271 Co3O4 nanoflowers detection of acid phosphatase Acid phosphatase (ACP) Color 0.1-25 U/L 0.062 U/L
    5179 288 MGCN-chitin-AcOH glucose detection glucose Color 5-1000 μM 0.055 μM
    5181 291 CuCo2O4 nanorods ascorbic acid detection Ascorbic acid (AA) Color 0-50 μM 1.94 μM
    5183 293 FeNZ water treatment
    5198 305 Cu-NC sensing of AA AA Color 5-15 μM 5.4 μM
    5206 314 Fe-MOF PSA detection PSA Color 0-60 μM 0.051 μM
    5218 325 CoOOH NFs Cobalt oxyhydroxide nanoflakes (CoOOH NFs), a typical two-dimensional (2D) nanomaterials, were found to induce chemiluminescence (CL) of luminol since the oxidase-like activity of CoOOH NFs enables the dissolved oxygen to generate various radicals (%OH, O2%−and 1O2) even if without the addition of oxidants such as hy GSH Color 10-1000 nM 6.4 nM
    5282 377 A-PCM self-energy biomimetic sensing platform DPV responses E-chem 0.3–100 μM 8.4 nM This will provide experimental support for self-energy biomimetic sensing platform based on PCM integrated with a supercapacitor self-energy system and oxidase-like sensing system in the near future.
    5283 377 A-PCM self-energy biomimetic sensing platform DPV responses E-chem 0.3–100 μM 8.4 nM
    5288 379 EPC-900 Colorimetric detection of ACP Acid phosphatase (ACP) Color 0.5-15 U/L 0.1 U/L
    5287 379 EPC-900 Colorimetric detection of ACP Acid phosphatase (ACP) Color 0.5-15 U/L 0.1 U/L The ΔA652nm value increased linearly with the increasing ACP activity from 0.5 to 15  U L−1.
    5289 379 EPC-900 luorometric sensing of glucose glucose Color 0.05–10 mM 30 μM
    5291 382 MnO2-Silk film may have significant implications on understanding the interaction of other metal oxides with various biomaterials.
    5298 388 COF-300-AR The practical application of COF-300-AR oxidase mimic for colorimetric detection of glutathione (GSH) was examined GSH Color 1~15 μM 1.0 μM
    5306 395 Gold-Mesoporous Silica Heteronanostructures Au NPs supported onto mesoporous silica supports via electrostatic attraction represents a feasible and straightforward strategy to fabricate glucose-oxidase enzyme-like inorganic platforms able to deliver a successful performance under mild reaction conditions (neutral pH and temperature).
    5312 405 Ag3PO4 NPs chlorpyrifos Color 9.97 ppm 119.6738-179.3717
    5315 413 MoS2-QDs-AgNPs visual determination of cysteine cysteine Color 1-100 μM 824 nM 90-109
    5320 419 core–shell Mn/Fe PBA@Mn/Fe PBA Colorimetric analysis of H2O2 H2O2 Color 1-300 μM 0.05 μM
    5318 419 core–shell Mn/Fe PBA@Mn/Fe PBA Colorimetric analysis Cys Cys Color 1-25 μM 0.36 μM
    5319 419 core–shell Mn/Fe PBA@Mn/Fe PBA Colorimetric analysis Hg2+ Hg2+ Color 0.1-15 μM 0.02 μM
    5375 456 Nanocages the laccase-like activity of Nanocages was integrated with an online sensing platform for in vivo and continuous optical hydrogen sulfide monitoring in the brains of living rats hydrogen sulfide E-chem 0.1-15 μM 33 nM
    5374 456 Nanocages the laccase-like activity of Nanocages was integrated with an online sensing platform for in vivo and continuous optical hydrogen sulfide monitoring in the brains of living rats hydrogen sulfide E-chem 0.1-15 μM 33 nM After testing the excellent capabilities of the OODP toward H2S monitoring, the animal model was carried out to test the ability of the constructed method.
    5376 456 Nanocages The peroxidase- and catalase-mimicking activities were applied to eliminate reactive oxygen species in cells
    5388 462 CuO NPs AA sensing AA Color 1.25-112.5 μM 32 nM 92.6-110.6 %
    5391 465 Pt NC/3D GF nanohybrid Detection of Catechol and Hydroquinone Catechol Color 0.5-800 μM 50 nM As shown in Figure 6, after incubation with the Pt NC/3D GF nanohybrid in pH 7.0 BR buffer at 30 °C for 15 min, the absorbance of the system at 388 nm gradually increased with the increase of catechol concentration.
    5392 465 Pt NC/3D GF nanohybrid Detection of Catechol and Hydroquinone HQ Color 0.05–1 and 1–50 μM 10 nM 95.8-99.6%
    5393 465 Pt NC/3D GF nanohybrid Detection of Catechol and Hydroquinone Catechol Color 0.5-800 μM 50 nM
    5394 465 Pt NC/3D GF nanohybrid Detection of Catechol and Hydroquinone HQ Color 0.05–1 and 1–50 μM 10 nM 95.8-99.6% different concentrations of HQ were spiked in the systems containing CC and then analyzed with the means
    5399 469 V2O5 nanobelts glucose detection glucose Color 1-1000 μM 0.33 μM Online Monitoring of Glucose in Living Rat Brain
    5400 469 V2O5 nanobelts glucose detection glucose Color 1-1000 μM 0.33 μM
    5442 498 SPDA Colorimetric detection of pyrophosphate pyrophosphate Color 0.1-30 μM 0.06 μM
    5445 501 Cu-HCF SSNEs Tumor-Specific Amplified Cascade Enzymatic Therapy
    5450 506 Fe–N4 pero-nanozysome Hyperuricemia and Ischemic Stroke
    5454 510 Mn3O4 nanoparticles (NPs) c Procedure for arsenic determination arsenic Color 5-100 μg/L 1.32 μg/L 91.74% - 112.14%
    5456 512 NiCo2O4-Au composite for killing bacteria and disinfecting wound
    5463 521 Fe3O4 Determination of Cr6+ Cr6+ Color 0−500 μM 0.03465 μM 92.43%-110.66%
    5465 523 CeO2 NPs for organophosphorus pesticides (OPs )and oxytetracycline(OTC) detection using CeO2 NPs organophosphorus pesticides (OPs Color 50–1000 ng/mL 7.6 ng/mL 97.2%-107.0%
    5466 523 CeO2 NPs for organophosphorus pesticides (OPs )and oxytetracycline(OTC) detection using CeO2 NPs oxytetracycline(OTC) Color 100–800 nM 10.2 nM 92.9% - 104.1%
    5474 530 HCS@Pt NPs for photodynamic and catalytic synergistic tumor therapy
    5478 534 Ag@Ag2WO4 NRs for colorimetric detection of Hg2+ Hg2+ Color 0.25 - 8.0 μM 1.6 nM 95.0% -106.0%
    5483 538 iron alkoxide Detection and removal of arsenate arsenate Color 3.33-333.33 μg/L 1.57 μg/L
    5507 569 Au NPs DNA release
    5513 575 BP QDs Detection of cysteine cysteine colorimetric 0.1-10.0 μM 0.03 μM
    5514 575 BP QDs Detection of glutathione glutathione colorimetric 0.1-5.0 μM 0.02 μM
    5518 579 MnO2 Detection of glutathione glutathione colorimetric 0.11-45 μM 0.1 μM
    5531 596 GOx@Pd@ZIF-8 a synergistic cancer therapeutic that blocks glucose metabolism and produces ROS
    5534 598 CeO2 NPs personal glucose meter-based label-free target DNA detection DNA Color 5-100 nM
    5554 617 LM portable immunoassay of allergenic proteins based on A smartphone α-LA 0.12-3.46 ng/mL 0.056 ng/mL
    5560 623 thiamine-MnO2 A thiamine-triggered fluormetric assay for acetylcholinesterase activity and inhibitor screening acetylcholinesterase (AChE) Fluor 0.02-1 mU/mL 15 μU/mL
    5561 624 AMP-Cu Efficient elimination and detection of phenolic compounds in juice phenolic compounds 0.1-100 μmol·L−1 0.033 μmol·L−1
    5569 636 MWCNT@MoS2 NS's Determination of 5-Nitroguaiacol 0.1–70 μM 0.02 μM
    5573 640 Pd12 nanocage Photocatalytic antibacterial activity
    5577 648 Au/OMCS Electrochemical Sensor Xanthine E-chem 0.10–20 μM 0.006 μM
    5588 659 Mn/Ni(OH)x LDHs antibacteria
    5609 679 R-MnCo2O4 construct highly sensitive biosensors. TMB Color
    5623 695 Pt detect ascorbic acid in triplicate Ascorbic acid (AA) Color 1-20 μM The limits of detection were 131 ± 15, 144 ± 14, and 152 ± 9 nM, with little difference.
    5627 701 Hep-Pd NPs determination of Pro protamine Color 0.02 ~ 0.8 μg mL−1 0.014 μg mL−1
    5644 722 PtNPs@MWCNTs NADH detection NADH 1-200 μM 0.8 μM
    5645 722 PtNPs@MWCNTs xylose biosensor xylose E-chem 5-400 μM 1 μM
    5654 732 Mn0.98Co0.02O2 treatment of gout
    5665 742 PFO/PFDBT-5 Pdots AChE detection acetylcholinesterase (AChE) Fluor 0-500 U/L 0.59 U/L
    5671 747 2D Co3O4@Rh NC colorimetric sensing of urea and p-Ap UREA Color 6-165 μM 1.1 μM 96-105.8
    5672 747 2D Co3O4@Rh NC colorimetric sensing of urea and p-Ap p-aminophenol Color 1.7-105 μM 0.68 μM 96-105.8
    5675 749 OV-Mn3O4 NFs detect L-Cys L-Cys Color 0.005 to 0.80 mM 1.31 μM 96.84 %–114.61 %
    5676 750 Ag2S@GO Hg2+ 9.8 × 10^–9 M 97.0–101.8% a
    5683 754 Pt nanocrystals The Pt nanocrystals also display laccase mimicking activity, which can be harnessed for colorimetric assay of epinephrine with high sensitivity. epinephrine Color 4.55−172.98 μM 0.66 μM 98-103
    5686 757 BSA-Cu complex Catalytic degradation of malachite green malachite green Color
    5710 784 AuPt@SF (APS) Antitumor
    5719 793 g-C3N4/hemin/Au cell apoptosis monitoring
    5721 795 Fe–N/C discriminating multiple biological antioxidants
    5732 807 AuNPs determination of glucose glucose Color 5-125 μM 3.4 μM 99.0-101.6% The IFE-based assay system was utilized for determining the levels of glucose in urine samples of a diabetic patients.
    5733 807 AuNPs detection of hydrogen peroxide H2O2 Color 5-135 μM 3.6 μM
    5786 858 ZnCd QDs potential role in origin of life
    5800 873 H-GNs It was supposed to be applied for Tg determination in serum to evaluate persistent or recurrent differentiated thyroid carcinoma. Thyroglobulin (Tg) 0.7-100 ng/mL 0.1 ng/mL
    5801 875 DMSN-Au NP glucose oxidase by DMSN-Au NPs not only reduces the cost but also provides significantly amplified signals due to DMSNs haing a high specific surface area. We show the detection of carcinoembryonic antigen (CEA) as an example target to evaluate the analytical figure of merits of the proposed strategy. Under the optimal conditions, twophoton- based o-CDs displayed excellent performances for CEA 0.1-80 ng/mL 74.5 pg/mL
    5802 876 Co4S3/Co(OH)2 HNTs Owing to the outstanding oxidase-like activity, Co4S3/Co(OH)2 HNTs can eliminate Escherichia coli, Pseudomonas aeruginosa, Staphylococcus sciuri, and Bacillus without the help of H2O2.
    5803 877 ZIF-67/Cu0.76Co2.24O4 NSs Based on its laccase-like activity, an online electrochemical system for continuous monitoring of 3,4-dihydroxyphenylacetic acid 3,4-dihydroxyphenylacetic acid 0.5−20 μM 0.15 μM
    5807 881 FePOs anti-tumor protocol
    5808 882 Magnetite detect H2O2 H2O2 2.4 × 104 μAM−1 and 1.8 × 10−5 M
    5810 884 NL-MnCaO2 confirmed the application of these compounds for the detection of glucose in human serum samples glucose 6.12 nM
    5819 901 DHPC@CS-AgNPs Detection of Hg2+ Hg2+ Color 0.02-1 μM 0.014 μg/mL
    5834 925 AuNPs Detection of Hg2+ Hg2+ Color 0.4-15 μM 0.147 μM
    5835 925 AuNPs Detection of Hg2+ Hg2+ Unsure 0.4-8 μM 0.06 μM
    5845 935 CeO2 NPs terminal transferase (TdT) activity assay glucose personal glucose meter 0-100 U/mL 0.7 U/mL
    5846 936 Co3O4/NF treatment of organic pollutants
    5849 939 MNPs nanotechnology products in medicine
    5864 961 Au NC's Detection of antioxidants AA,GSH,Cys Fluor 0.005 -10 μ M 0.04 μ M
    5873 970 phosphorene@Ti3C2-MXene Sensing of α -naphthalene acetic acid α -naphthalene acetic acid E-chem 0.02 – 40 μ M 1.6 nM
    5875 972 BSA@Au NPs CYFRA21-1 detection glucose E-chem 0.1-50 ng/mL 1.12 fg/mL
    5879 976 FeN5 SAs Biofuel cells
    5881 978 Au NPs Digital glucose detction 0-10 mg/mL
    5911 1003 V4O7 and V2O5 removal of organic pollutants
    5915 1006 Fe3O4/DG detection and degradation of harmful triazine pesticides 2.24 μM
    5920 1013 GNF Detection of Dopamine Dopamine (DA) Color 4.5 μg/mL 99.53-101.13%
    5921 1013 GNF Detection of Catechol Catechol Color 3.0 μg/mL 98.75-101.13%
    5922 1013 GNF Detection of Hydroquinone Hydroquinone Color 4.5 μg/mL 98.36-100.39%
    5923 1014 CTNs epinephrine detection epinephrine Color 4.5-90 μM 3.4 μM
    5929 1020 CeO2/Tb2+ optical spectroscopy
    5932 1023 MnOOH nanotubes we have proposed MSBAM for in situ visualization of the oxidase-like activity of MnOOH nanotubes at the single-particle level.
    5938 1030 Se@PDA@Bor multitargets synergistic therapy of AD
    5946 1041 Mn3O4 NPs and NC Mn3O4 NPs and NC can be used as PPO mimics in the potential fields such as biosensing and removal of phenolic compounds in industrial waste waters.
    5952 1046 Au/Ni-Fe LDH/rGO SERS sensing of Hg2+ Hg2+ Color 0.01-0.20 μM 0.01 μM
    5953 1046 Au/Ni-Fe LDH/rGO SERS sensing of MeHg MeHg Color 0.01-0.10 μM 0.01 μM
    5954 1046 Au/Ni-Fe LDH/rGO total removal of organic mercury
    5956 1048 CuCo(O)/GOx@PCNs Immunotherapy/Enhanced Starvation/Photothermal Therapy
    5969 1060 LSG intelligent evaluation of fish freshness XT E-chem 0.3-179.9 μM 0.26 μM
    5970 1060 LSG intelligent evaluation of fish freshness HX E-chem 0.3-159.9 μM 0.18 μM
    6007 1098 AUNCs prodrug activation nitrobenzene
    6014 1107 Mn/PSAE Tumor Therapy via Integrated Cascade Reactions
    6015 1108 CeO2 Boosted Oxidative Catalytic Activity
    6016 1109 Fe/NPC sensitively determining acetylcholinesterase (AChE) acetylcholinesterase (AChE) Color 0.02-5.0 U/L 0.0073 U/L
    6017 1109 Fe/NPC sensitively determining acetylcholinesterase (AChE) acetylcholinesterase (AChE) Fluor 0.01–5.0 U/L 0.0032 U/L
    6070 1180 Heme-AuNPs served as a Cys colorimetric sensor, detect cysteine Cys Color 15~750 nM 10 nM
    6085 1197 CoOOH NSs the presence of SO3 2 could effectively inhibit the CoOOH NS–O2– TMB reaction system and thus caused changes in color and absorbance, which facilitated a colorimetric sensor for sulfite. sulfite 5× 10-8~2× 10-5 M 2× 10-8 M
    6098 1219 MnO2 NSs–TMB glucose colorimetric detection system glucose Color 0-4000 μM 5.0 μM
    6105 1227 CeO2 Immunoassay for fenitrothion Fenitrothion Color 7.1-177.4 ng/mL 2.1 ng/mL
    6113 1241 Au@NH2-MIL-125(Ti) Determination of Cysteine in fetal bovine serum Cysteine Color 1-10 μM 0.15 μM
    6136 1274 IrO2/MnO2 quantitative detection of ascorbic acid Ascorbic acid (AA) Colorimetric 0–312.5 μM 1.23 μM
    6147 1287 GNE-based Au NPs Glucose Biosensor glucose Color 0.05-10 mM
    6148 1287 GNE-based Au NPs H2O2 detection H2O2 CL
    6151 1295 RSPCO pyrogallol Sensing TMB Color 0.5-30 μM 15 nM
    6162 1309 Au NPs@GQDs Determination of quercetin in human plasma Quercetin E-chem 1.0×10^(−10)-1.0×10(−3) mol/L 3.3*10(-11) M
    6180 1332 CSFs detection of H2O2 H2O2 Color 10-100 μM 3.33 μM
    6204 1353 CoSe2 hollow microspheres ultrasensitive colorimetric biosensing glutathione Color 0.005-10 μM 4.62 nM
    6210 1357 SA-PtNPs Antioxidant Capacity and Analysis of Proanthocyanidins oligomeric proanthocyanidins Color 4-32.5 μM 2.0 μM
    6223 1368 Ag3PO4 detect Hg2+ Hg2+ Color 0.1-7 μM 20 nM 94.8-108.0
    6225 1371 RF Resin detect glucose glucose Color 0.2-8.5 mM 9.2 μM
    6226 1371 RF Resin detect glucose H2O2 Color 0.1-2 mM 3.5 μM
    6245 1392 MnxCo1-xO Detection of S2- S2- Color 0-25 μM 0.1 μM 100.8-103.3
    6262 1412 BP QDs Detection AChE acetylcholinesterase (AChE) Color 0.5-10 mU/mL 0.17 mU/mL
    6266 1416 AuNPs@PMo12 Acetaminophen detection Acetaminophen Color 30-120 mg/L 14.52 μg/mL
    6279 1429 MnO2 Glucose sensing Glucose Color 1-200 μM 0.84 μM
    6297 1449 PBA NCs Detection of H2S H2S Color 0.1-20 μM 33 nM
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