1. Home
  2. Search
  3. Kinetics
Periodic

Materials
  • ALL
    • Enzyme-like Activity
  • ALL
    • Inorganic Materials,Carbon,Metal,Multi-metal,Metal Oxide,Single-atom,Sulfide
    ref material enzyme type substrate pH T km km err km 10n km unit vmax vmax err vmax 10n vmax unit kcat kcat err kcat 10n kcat unit kcat/km kcat/km 10n kcat/km unit comment
    5905 21 Fe-N/C OXD TMB, ABTS and OPD 3.5 37 0.94 mM 5.98 -7 M/s 21 21
    5909 27 Cu NPs/N-C POD TMB 1.57 mM 12.76 -8 M/s 0.0049 1/s 27 M-1 s-1 27
    5910 27 Pt/C POD TMB 7.74 mM 185.3 -8 M/s 0.5434 1/s 27 M-1 s-1 27
    5911 27 Cu–N–C POD H2O2 3.0 37 19.94 mM 20.07 -8 M/s 0.0750 1/s 27 M-1 s-1 27
    5912 27 Cu–N–C POD TMB 3.0 37 3.76 mM 75.05 -8 M/s 0.2803 1/s 27 M-1 s-1 27
    5913 27 Cu NPs/N-C POD H2O2 17.98 mM 8.57 -8 M/s 0.0033 1/s 27 M-1 s-1 27
    5914 27 Pt/C POD H2O2 41.53 mM 42.58 -8 M/s 0.1249 1/s 27 M-1 s-1 27
    5915 31 FeS2 NPs POD TMB 0.17 mM 3.93 -8 M/s 31 31
    5916 31 FeS2 NPs POD H2O2 0.3 mM 5.62 -8 M/s 31 31
    5917 32 Au2Pt POD TMB 0.05378 mM 18.405 -8 M/s 32 32
    5918 32 Au2Pt POD H2O2 5.045 mM 14.11 -8 M/s 32 32
    5919 33 Co/PMCS multi-functionalities H2O2 0.26 mM 17.44 μM/min 33 33
    5920 33 Co/PMCS multi-functionalities GSH 2.81 mM 12.97 μM/min 33 33
    5921 35 Cu5.4O USNPs CAT H2O2 0.065 mM 3.92 -6 M/s 35 35
    5922 36 P-Co3O4 POD TMB 0.12 mM 1.14 -8 M/s 36 36
    5923 36 P-Co3O4 POD H2O2 3.43 mM 1.03 -8 M/s 36 36
    5924 36 R-Co3O4 POD TMB 0.07 mM 15.80 -8 M/s 36 36
    5925 36 R-Co3O4 POD H2O2 0.74 mM 10.13 -8 M/s 36 36
    5928 39 Rh CAT H2O2 62.3 mM 6.8 μM/min 33.9 1/min 39 39
    5929 39 Au@Rh CAT H2O2 480.3 mM 98.0 μM/min 490.2 1/min 39 39
    5930 39 Au@Pt CAT H2O2 509.9 mM 72.5 μM/min 362.3 1/min 39 39
    5941 48 Fe-NC nanozymes POD TMB 14.9 -7 M 6.2 -7 M/s 48 48
    5944 54 Fe3C/N–C POD H2O2 2.269 -4 mM 1.924 -10 M/s 54 54
    5945 54 Fe3C/N–C POD TMB 3.108 -2 mM 3.463 -8 M/s 54 54
    5968 73 vanadium oxide nanodots (VOxNDs) POD H2O2 3.5 40 0.077 mM 28.76 -7 M/s 73 73
    5969 73 vanadium oxide nanodots (VOxNDs) OXD TMB 3.5 35 0.3022 mM 0.0562 -7 M/s 73 73
    5970 73 vanadium oxide nanodots (VOxNDs) POD TMB 3.5 40 0.21352 mM 26.69 -7 M/s 73 73
    5971 78 AuNP-NH2OH POD H2O2 4 RT 0.41 mM 36.05 -9 M/s 1269.33 0 1/s 78 -3 M-1 s-1 78
    5972 78 AuNP-HQ POD TMB 4 RT 0.23 mM 25.95 -9 M/s 913.59 0 1/s 78 -3 M-1 s-1 78
    5973 78 AuNP-AA POD H2O2 4 RT 0.2 mM 26.24 -9 M/s 924.09 0 1/s 78 -3 M-1 s-1 78
    5974 78 AuNP-NH2OH POD TMB 4 RT 0.58 mM 63.54 -9 M/s 2218.30 0 1/s 78 -3 M-1 s-1 78
    5975 78 AuNP-HQ POD H2O2 4 RT 0.16 mM 20.16 -9 M/s 724.64 0 1/s 78 -3 M-1 s-1 78
    5976 78 AuNP-AA POD TMB 4 RT 0.27 mM 32.52 -9 M/s 1145.17 0 1/s 78 -3 M-1 s-1 78
    5977 82 PNCNzyme POD TMB 0.07915 mM 22.82 -8 M/s 82 82
    5978 82 PNCNzyme POD H2O2 154.8 mM 54.22 -8 M/s 82 82
    5983 92 Rhodium SOD O2•- 92 92
    5985 95 Co3O4 POD ABTS 95 95
    5986 96 AuNCs POD TMB 0.403 mM 9.568 -8 M/s 96 96
    5987 96 AuNCs POD H2O2 0.513 mM 4.751 -8 M/s 96 96
    5994 109 IrOx POD TMB 19.27 mM 1.79 μM/s 109 109
    5997 112 Cerium Oxide Nanoparticles 112 112
    6005 128 BNS-CDs POD H2O2 0.0233 mM 1.255 -8 M/s 128
    6006 128 BNS-CDs POD TMB 0.435 mM 9.467 -8 M/s 128
    6017 142 CDs Isomerase pDNA 142
    6018 144 Pd NSs POD H2O2 4.44 mM 4.02 -8 M/s 144
    6019 144 Au21Pd79 POD H2O2 5.89 mM 8.19 -8 M/s 144 144
    6020 144 Au21Pd79 POD TMB 0.295 mM 19.65 -8 M/s 144 144
    6021 144 Pd NSs POD TMB 0.21 mM 7.01 -8 M/s 144
    6025 149 NiO OXD 149 149
    6026 150 Co3O4@β-CD NPs POD TMB 0.17 mM 2.81 -8 M/s 150 3 M-1 s-1 150
    6027 150 HRP POD TMB 0.52 mM 8.54 -8 M/s 150
    6028 150 HRP POD H2O2 1.59 mM 10.99 -8 M/s 150
    6029 150 Co3O4 NPs POD H2O2 5.17 mM 1.79 -8 M/s 150 150
    6030 150 Co3O4@β-CD NPs POD H2O2 1.42 mM 2.85 -8 M/s 150 150
    6031 150 Co3O4 NPs POD TMB 0.25 mM 1.85 -8 M/s 150 2 M-1 s-1
    6033 155 Au NCs-ICG CAT H2O2 2.02 mM 4.55 -6 M/s 155
    6040 158 AgPd@BSA/DOX 158 158
    6041 159 Au@Pt POD H2O2 4.076 -3 mM 6.013 -8 M/s 2.004 3 1/s 159 The apparent Km values for Au@Pt nanozyme were about 80e600 times smaller than that ofHRP, which indicated that the affinity between TMB/H2O2 and Au@Pt nanozyme was stronger than that between HRP and TMB/H2O2. Moreover, the Kcat values for Au@Pt nanozyme were about 80e340 times higher than that of HRP, which indicated that the catalytic efficiency of Au@Pt nanozyme was stronger than that of HRP
    6042 159 HRP POD H2O2 1.468 mM 22.88 -8 M/s 18.3 1/s 159
    6043 159 Au@Pt POD TMB 2.431 -3 mM 4.425 -8 M/s 1.475 3 1/s 159
    6044 159 HRP POD TMB 0.3296 mM 7.638 -8 M/s 5.894 1/s 159
    6045 160 Fe-N-C-400 OXD TMB RT 0.269 mM 0.338 μM/s 160 160
    6046 160 Fe-N-C-850 OXD TMB RT 0.23 mM 0.133 μM/s 160 160
    6052 165 VONP-LPs POD TMB 0.02 mM 19.7 -1 μM/min 165 M-1 s-1 165
    6053 165 VONP-LPs POD H2O2 0.04 mM 20.9 -1 μM/min 165 M-1 s-1
    6054 166 CB-CQDs POD H2O2 4.5 RT 0.7 mM 4.09 -8 M/s 166
    6055 166 CB-CQDs POD TMB 4.5 RT 0.83 mM 5.13 -8 M/s 166 166
    6060 171 HS-PtNPs OXD TMB 0.01012 mM 171 171
    6062 173 MoO3 NPs OXD ABTS 1.6769 mM 173
    6069 178 Au1Pd5 NCs POD TMB 0.086 mM 6.48 -8 M/s 178
    6070 178 Au1Pd5 NCs POD H2O2 160 mM 8.72 -8 M/s 178
    6076 182 T-BiO2–x NSs 182
    6094 198 TPyP-CuS POD TMB 0.106 mM 5.30 -8 M/s 198
    6095 198 TPyP-CuS POD H2O2 3.937 mM 2.139 -8 M/s 198 198
    6096 200 GeO2 POD TMB 0.42 mM 23.397 -8 M/s 200
    6097 200 GeO2 POD H2O2 1.75 mM 23.400 -8 M/s 200 200
    6104 208 AgNPs OXD ABTS 7.2 μM 2.89 μM/min 208 208
    6105 209 BSA-RuO2NPs POD H2O2 189.42 mM 3.76 -7 M/s 0.57 3 1/s 209 3 M-1 s-1
    6106 209 BSA-RuO2NPs POD TMB 0.034 mM 5.54 -7 M/s 0.83 3 1/s 209 7 M-1 s-1
    6110 214 PTCA-ZnFe2O4 POD H2O2 0.8343 mM 1.144 -8 M/s 214
    6111 214 PTCA-ZnFe2O4 POD TMB 0.2217 mM 7.801 -8 M/s 214
    6113 216 GO hydrolase DNA 216
    6130 232 AuPtRu POD o-phenylenediamine 232 232
    6131 234 CdCo2O4 POD H2O2 0.325 mM 3.75 -8 M/s 234 234
    6132 234 CdCo2O4 POD TMB 0.317 mM 2.19 -8 M/s 234 234
    6135 260 PtNPs OXD TMB 0.062 mM 11.44 -8 M/s 260 260
    6136 264 CeO2 microspheres POD OPD 2885.8 μM 64.1 μM/s 264
    6137 266 FeBNC POD H2O2 25.24 mM 1.28 -6 M/s 0.37 1/s 266 M-1 s-1
    6138 266 FeNC POD TMB 1.48 mM 0.56 -6 M/s 0.075 1/s 266 M-1 s-1 266
    6139 266 FeBNC POD TMB 2.22 mM 1.81 -6 M/s 0.52 1/s 266 M-1 s-1 266
    6140 266 FeNC POD H2O2 24.25 mM 5.48 -7 M/s 0.073 1/s 266 M-1 s-1
    6141 269 CMS NPs OXD Ascorbic acid 12.06 μM 0.11 μM/s 269
    6142 269 CMS NPs POD TMB 1.36 mM 27.29 -8 M/s 269
    6143 269 CMS NPs POD H2O2 25.46 mM 42.81 -8 M/s 269 269
    6144 270 CexZr1-xO2+Pi POD H2O2 12.6 mM 2.8 -8 nM/s 270
    6145 270 CexZr1-xO2 POD TMB 1.9 mM 13.2 -8 M/s 270
    6146 270 CexZr1-xO2 POD H2O2 21.3 mM 2.1 -8 M/s 270
    6147 270 CexZr1-xO2+Pi POD TMB 0.9 mM 33 -8 nM/s 270
    6148 271 Co3O4 nanoflowers POD TMB 0.283 mM 0.1052 μM/s 271
    6149 271 Co3O4 nanoflowers POD H2O2 5.9322 mM 0.0985 μM/s 271
    6150 271 Co3O4 nanoflowers CAT H2O2 839.85 mM 1466.66 μM/s 271
    6151 271 Co3O4 nanoflowers OXD TMB 0.0469 mM 0.0459 μM/s 271 271
    6158 278 AuNP transferase HPNPP 278
    6159 280 MoS2 NSs POD 280 280
    6161 282 Fe-SAs/NC POD 282
    6162 283 Cit-IrNPs CAT H2O2 21.09 mM 283
    6165 283 Cit-IrNPs OXD TMB 3.86 RT 0.287 mM 0.587 -6 M/s 283
    6163 283 Cit-IrNPs POD TMB 3.86 RT 0.0906 mM 1.7 -6 M/s 0.5 3 1/s 283
    6164 283 Cit-IrNPs POD H2O2 3.86 RT 0.27 mM 1.5 -6 M/s 0.44 3 1/s 283
    6167 285 Fe3O4 POD 285 285
    6172 289 WS2 POD H2O2 0.805 mM 22 -8 M/s 289
    6171 289 WS2 POD TMB 15.158 mM 65.23 -8 M/s 289 289
    6173 291 CuCo2O4 nanorods OXD TMB 0.032 mM 0.217 μM/s 291 291
    6174 292 RuTeNRs POD H2O2 208.85 51.86 mM 2.66 0.32 -8 M/s 292 292
    6175 292 RuTeNRs SOD 18.78 3.58 -3 mM 58.90 3.37 -6 μM/min 292
    6190 309 GDYO POD H2O2 2.59 mM 1.06 μM/min 309
    6191 309 GDYO POD TMB 0.62 mM 1.15 μM/min 309 309
    6193 312 PtRu NPs multi-functionalities TMB 312
    6199 317 2D MnO2 nanoflakes POD TMB/OPD/ABTS, 317
    6213 324 Cu NCs POD H2O2 2.52 mM 1.68 -7 M/s 324 M-1 s-1
    6210 324 Cu NCs POD TMB 1.125 mM 0.72 -7 M/s 324 324
    6211 324 Cu NCs AAO AA 0.46 mM 23.5 -4 M/s 1/s 324 M-1 s-1
    6212 324 Cu NCs CAT H2O2 207.1 mM 418.4 μM/s 324
    6214 324 Cu NCs SOD ·O2- 324
    6228 335 nanoceria hydrolase CDP-star 0.93 μM 3.57 -9 M/s 0.026 1/s 335 M-1 s-1 335
    6230 336 OEG-AuNPs POD TMB 0.2842 mM 2.34 -6 M/s 2.23 3 1/min 336 6 M-1 min-1 336
    6229 336 OEG-AuNPs+1 ppm Hg2+ POD TMB 0.3537 mM 7.7 -6 M/s 7.33 3 1/min 336 7 M-1 min-1 336
    6232 337 N-QG POD H2O2 0.069 mM 6.54 -9 M/s 337 337
    6234 337 QG POD H2O2 0.12 mM 4.96 -9 M/s 337
    6231 337 N-QG POD TMB 0.51 mM 18.21 -9 M/s 337
    6233 337 QG POD TMB 0.38 mM 4.39 -9 M/s 337
    6236 357 PtNFs POD H2O2 10.97 mM 5.63 -8 M/s 357
    6237 357 PtNFs POD TMB 0.29 mM 6.3 -8 M/s 357
    6240 362 AuNPs POD TMB 8.7719 μM/min 3364 1/min 362
    6241 363 SNC POD H2O2 1.2 mM 1.42 -6 M/s 363 363
    6243 364 Fe, N-CDs POD TMB 0.434 mM 1 -7 M/s 364
    6242 364 Fe, N-CDs POD H2O2 0.207 mM 7.487 -7 M/s 364 364
    6244 366 Pd−Ir core-shell nanoparticles(5.9 nm) POD TMB 6.4 -4 M 1.3 -7 M/s 3.4 5 1/s 366
    6245 366 Pd−Ir core-shell nanoparticles(13.0 nm) POD TMB 3.4 -4 M 7.2 -7 M/s 1.2 6 1/s 366
    6246 366 Pd−Ir core-shell nanoparticles(9.8 nm) POD TMB 4 -4 M 8.9 -6 M/s 9.6 5 1/s 366
    6247 366 Pd−Ir core-shell nanoparticles(3.3 nm) POD TMB 2.7 -4 M 6.3 -7 M/s 9.4 4 1/s 366
    6249 367 FeS2 NSs POD TMB 0.171 mM 6.37 -8 M/s 367 367
    6248 367 FeS2 NSs POD H2O2 0.00342 mM 10.3 -8 M/s 367
    6256 376 ND nanozymes POD TMB 3.64 mM 1.55 -4 mM/min 376
    6257 377 A-PCM OXD 377
    6260 379 EPC-900 POD TMB 0.259 mM 1.75 -8 mM/s 379
    6261 379 EPC-900 POD H2O2 0.012 mM 3.33 -8 mM/s 379 379
    6262 379 EPC-900 OXD TMB 0.106 mM 5.1 -8 mM/s 379 379
    6266 382 MnO2-Silk film OXD TMB 1.62 0.664 mM 160 0.031 μM/min 382
    6267 383 AuNPs@Ag POD 383
    6268 385 Au@Pt nanoparticles POD 385
    6296 420 ZnCo2O4 POD OPD 0.4 mM 5.90 -8 M/s 420
    6295 420 ZnCo2O4 POD H2O2 0.23 mM 4.75 -8 M/s 420 420
    6313 461 PdCuAu NPs POD TMB 0.54 mM 1.7 -7 M/s 3.09 4 1/s 461
    6314 461 PdCuAu NPs POD H2O2 0.16 mM 1.2 -7 M/s 2.18 4 1/s 461 461
    6315 462 AAO OXD AA 0.084 mM 6.5 -4 mM/s 363.13 1/s 462
    6316 462 CuO NPs OXD AA 0.1302 mM 9.9 -4 mM/s 26.98 1/s 462 ascorbate oxidase (AAO) mimic
    6324 466 4-AHA@AuNPs nanoparticles POD TMB 22 μM 1.6 -7 M/s 466 466
    6325 466 4-AHA@AuNPs nanoparticles POD H2O2 215 μM 2.4 -7 M/s 466
    6327 468 Ag2-xCuxS NPs POD H2O2 0.0165 mM 11.8 -8 M/s 6.05 1/s 468
    6326 468 Ag2-xCuxS NPs POD TMB 0.00588 mM 307.9 -8 M/s 1.58 1/s 468
    6330 469 V2O5 nanobelts POD H2O2 7.0 0.29 mM 20.06 -8 M/s 469
    6328 469 V2O5 nanobelts OXD glucose 7.0 37 3.02 mM 18.114 -8 M/s 469 469
    6329 469 V2O5 nanobelts POD TMB 7.0 0.69 mM 27.15 -8 M/s 469
    6334 471 Co2V2O7 particles POD H2O2 3.0 35 0.669 mM 1.25 -8 M/s 471
    6333 471 Co2V2O7 particles POD TMB 3.0 35 0.311 mM 2.58 -8 M/s 471 471
    6344 485 CeO2 NCs POD H2O2 4.5 RT 2.97 mM 7.67 -8 M/s 485 M-1 s-1 485
    6343 485 CeO2 NCs POD TMB 4.5 RT 0.3 mM 8.43 -8 M/s 485 M-1 s-1 485
    6345 485 CeO2 NCs POD H2O2 7.4 RT 0.62 mM 3.13 -8 M/s 485 M-1 s-1 485
    6342 485 CeO2 NCs POD TMB 7.4 RT 0.12 mM 3.5 -8 M/s 485 M-1 s-1
    6353 497 CuS NPs POD TMB 1.25 mM 63.65 nM/s 497
    6352 497 CuS NPs POD H2O2 0.058 mM 31.52 nM/s 497 497
    6370 506 Fe–N4 pero-nanozysome POD H2O2 4.5 37 175.5 mM 567.9 nM/s 506 pero-nanozysome exhibited higher enzymatic activity as evaluated by the values for KM and Vmax (Table S5, Supporting Information).
    6373 506 Fe–N4 pero-nanozysome (单位无法填写) CAT H2O2 7.0 RT 0.09 M 2.34 506 The KM value of pero-nanozysome was about four times lower than that of N-nanozyme (Table S3, Supporting Information),
    6372 506 Fe–N4 pero-nanozysome OXD TMB 4.5 37 0.55 mM 45.27 nM/s 506 In addition, pero-nanozysome also possessed higher catalytic efficiency than that of N-nanozyme (Figure 3e and Table S6, Supporting Information).
    6369 506 Fe–N4 pero-nanozysome cascade reaction UA 8.0 25 16.64 μM 1.36 -3 μM/min 506 506
    6371 506 Fe–N4 pero-nanozysome POD TMB 4.5 37 0.18 mM 299.8 nM/s 506 pero-nanozysome exhibited higher enzymatic activity as evaluated by the values for KM and Vmax (Table S5, Supporting Information).
    6374 509 AuNPs@C.CNF POD TMB 4.0 RT 0.149 mM 10.68 -8 M/s 509 The apparent stead-state kinetic analysis of AuNPs@C.CNF were performed in a 1 mL of 0.5 M acetate buffer (pH 4.0) containing 20 μL of AuNPs@C.CNF as nano-enzyme and different concentration of H2O2 at fixed concentration of TMB or vice versa The reaction was monitored spectrophotometrically in time scan mode at 652 nm.The kinetic parameters were calculated by using the Michaelis-Menten equation, V = Vmax[S]/(Km+[S]), where V is the initial reaction velocity, Vmax is the maximal reaction velocity, and [S] substrate concentration and Km is the Michaelis constant. Km and Vmax were obtained by using Lineweaver-Burk plot equation, 1/V= (Km/Vmax) (1/[S]) + (1/Vmax).
    6375 509 AuNPs@C.CNF POD H2O2 4.0 RT 0.359 mM 11.38 -8 M/s 509 509
    6376 510 Mn3O4 nanoparticles (NPs) c OXD TMB 3.0 30 0.08 mM 48.17 -8 M/s 4.41 1/s 510 510
    6381 515 aptamers@BSA-AuNCs POD H2O2 5.5 37 40.7 mM 14.47 -8 M/s 515 As shown in Table 1, with H2O2 as the substrate, the Km value of bacteria@aptamer1,2@BSA-AuNCs was similar to that of aptamer1,2@BSAAuNCs, demonstrating that the enhancement of the peroxidase-like activity of aptamer1,2@BSA-AuNCs did not originate from the increased affinity for H2O2. In comparison with aptamer1,2@BSA-AuNCs, the Vmax value of bacteria@aptamer1,2@BSA-AuNCs exhibited about 3 times improvement, which might be attributed to the enrichment of bacteria toward aptamer1,2@BSA-AuNCs and TMB, thus promoting the proximity of aptamer1,2@BSA-AuNCs to TMB and greatly increasing the local concentrations of the enzyme-mimetic nanoparticles and their substrate.
    6380 515 aptamers@BSA-AuNCs POD TMB 5.5 37 0.3 mM 17.42 -8 M/s 515 515
    6383 518 Hep-Pt NCs POD H2O2 6 37 165 mM 11.98 -8 M/s 518 518
    6382 518 Hep-Pt NCs POD TMB 6 37 0.016 mM 7.18 -8 M/s 518 518
    6384 521 Fe3O4 OXD Ce6+ 4.0 RT 0.114 mM 521 521
    6386 523 CeO2 NPs OXD TMB 523 523
    6391 527 Fe3O4 NPs 527 527
    6392 528 CuO nanorods (NRs) 528 528
    6402 535 Fe-Nx SANs POD TMB 3.6 37 0.3322 mM 51.4 μM/min 7.04 5 1/min 535 21.19 M-1 s-1 535
    6403 535 Fe-Nx SANs POD H2O2 3.6 37 17.12 mM 24.48 μM/min 3.35 5 1/min 535 6 M-1 s-1 535
    6404 536 Cu/Au/Pt TNs POD H2O2 and TMB 5 536 536
    6407 538 iron alkoxide OXD TMB 0.12 mM 2.11 -8 M/s 538 538
    6411 543 Au@SiO2-NH2 SOD 543 543
    6413 544 CuCo2S4 NPs POD H2O2 209.9 mM 232.8 -9 M/s 544 544
    6412 544 CuCo2S4 NPs POD OPD 3.66 mM 108.4 -9 M/s 544 544
    6414 545 NSP-CQDs POD H2O2 32.61 mM 6950.68 -8 M/s 545 545
    6415 545 NSP-CQDs POD TMB 0.47 mM 18.81 -8 M/s 545 545
    6423 548 CeO2 bare POD TMB 0.2 mM 0.75 1/s 548 3 M-1 s-1 548
    6424 549 β-CD@AuNPs 549 549
    6426 552 MnO2 nanoparticles POD 552 552
    6428 553 CoMoO4 nanobelts POD TMB 0.077 mM 51.05 -8 M/s 553 553
    6427 553 CoMoO4 nanobelts POD H2O2 1.115 mM 11.62 -8 M/s 553 553
    6429 554 Pd@Au nanostructures POD H2O2 0.022 mM 0.847 -8 M/s 554 554
    6430 554 Pd@Au nanostructures POD TMB 0.152 mM 9.64 -8 M/s 554 554
    6433 557 Magnetic Nanoflowers POD 557 557
    6437 560 Mesoporous Pd@Pt POD TMB+H2O2 560 560
    6438 561 urchin-like Pt nanozymes POD TMB 0.174 mM 1.01 μM/s 2.69 4 1/s 561 561
    6439 561 urchin-like Pt nanozymes POD H2O2 82.7 mM 1.77 μM/s 4.75 4 1/s 561 561
    6442 565 Au–Ag@HA NPs POD 565 565
    6445 567 Co3O4 NCs POD H2O2 0.0786 mM 567 567
    6446 568 Cu2O nanocubes POD 568 568
    6447 569 Au NPs OXD 569 569
    6450 571 N/Cl-CDs POD 571 571
    6461 579 MnO2 OXD TMB 3.45 μM 16.80 -6 M/s 579 579
    6462 580 WO3−x QDs POD TMB 0.08 mM 1.68 -8 M/s 580 580
    6463 581 Fe–N–C POD 581 581
    6466 583 FA-PMo4V8 POD TMB 1.32 -4 mM 7.5 -5 M/s 583 583
    6472 590 GdW10O36 nanoclusters POD 590 590
    6475 593 CeO2 POD TMB 0.07 mM 0.10 -6 M/s 593 593
    6481 598 CeO2 NPs OXD glucose 5.93 mM 0.59 -6 M/s 10.09 1/s 598 598
    6487 602 Fe3O4 nanoparticles POD 602 602
    6498 611 CeVO4 SOD 611 611
    6504 618 MoO3−x NDs POD TMB 2.65 mM 0.0152 -7 M/s 618 618
    6503 618 MoO3−x NDs POD H2O2 0.26 mM 1.52 -7 M/s 618 618
    6506 621 Au@Pt POD 621 621
    6511 625 Ceria NPs POD H2O2 0.02 mM 625 625
    6510 625 Ceria NPs POD TMB 308 mM 625 625
    6515 629 DNA-Au/Pt NCs POD TMB 1.56 mM 4 -8 M/s 629 629
    6521 637 Magnetite@cellulose NCs POD ABTS 637 637
    6522 638 Fe3O4 CAT H2O2 638 638
    6523 639 WS2 QDs POD TMB 639 639
    6525 643 CuO cascade reaction 643 643
    6526 644 Pt SOD TMB+H2O2 644 644
    6528 646 Co(OH)2 OXD TMB 0.362 mM 6.06 M/s 646 646
    6529 647 MoSe2 QDs POD TMB 2.58 mM 0.01 M/s 647 647
    6530 647 MoSe2 QDs POD H2O2 0.389 mM 0.012 M/s 647 647
    6533 651 FeS2/SiO2 POD H2O2 0.0126 mM 18.1 M/s 1 1/min 651 651
    6532 651 FeS2/SiO2 POD TMB 0.948 mM 31 M/s 1 1/min 651 651
    6534 653 MnO2 CAT H2O2 653 653
    6535 654 FeS2/SiO2 654 654
    6537 656 CeO2 hydrolase 656
    6538 657 iron oxides POD 657
    6539 658 AuNPs POD 658
    6544 662 g-C3N4 POD 0.159 mM 1.3 -8 M/s 662
    6545 663 S-rGO POD TMB 4.0 45 0.374 mM 2.89 -8 M/s 663
    6546 663 S-rGO POD H2O2 4.0 45 0.594 mM 9.42 -8 M/s 663
    6548 665 GO-UO22+ NPs POD 665
    6549 666 AuNCs-SF POD 666
    6550 667 nanoceria CAT 667
    6554 668 D-Trp-OMe@AuNCs-TC POD H2O2 0.01 1.748 -8 M/s 668
    6552 668 D-Trp-OMe@AuNCs POD H2O2 0.057 0.831 -8 M/s 668
    6553 668 D-Trp-OMe@AuNCs-TC POD TMB 0.254 1.923 -8 M/s 668
    6551 668 D-Trp-OMe@AuNCs POD TMB 0.182 0.192 -8 M/s 668
    6556 669 GNR POD H2O2 4.0 35 3.52 mM 3.09 -8 M/s 669
    6555 669 GNR POD TMB 4.0 35 0.42 mM 1.58 -8 M/s 669
    6562 670 FS-25 POD H2O2 0.814 mM 5.98 8 M/s 670
    6564 670 FS-0 POD H2O2 1.006 mM 5.69 8 M/s 670
    6557 670 FS-100 POD TMB 0.161 mM 14.71 8 M/s 670
    6558 670 FS-100 POD H2O2 0.111 mM 13.12 8 M/s 670
    6559 670 FS-50 POD TMB 0.201 mM 11.33 8 M/s 670
    6560 670 FS-50 POD H2O2 0.505 mM 7.89 8 M/s 670
    6561 670 FS-25 POD TMB 0.67 mM 8.77 8 M/s 670
    6563 670 FS-0 POD TMB 0.175 mM 5.88 8 M/s 670
    6565 671 IrNPs POD 671
    6566 672 MoS2-Lys NSs POD 672
    6568 674 Fe3O4 MNPs hydrolase 674
    6569 675 AIronNPs+AMF POD H2O2 675
    6570 675 AIronNPs POD H2O2 675
    6572 677 HyPEI-supported ZnS NC 677
    6573 678 g-C3N4 678
    6575 680 Mn3O4 SOD 680
    6578 686 nano-MnO2 686
    6579 687 CuSNPs 687
    6580 688 RuO2 688
    6585 695 Pt OXD TMB 0.102 mM 330 nM/s 695
    6633 727 Ir NPs POD TMB 0.12 mM 12.56 -8 M/s 727
    6632 727 Ir NPs POD H2O2 3.27 mM 22.57 -8 M/s 727
    6635 732 Mn0.98Co0.02O2 OXD UA 22.34 μM 0.00892 μM/min 732
    6642 734 ZrO2 NPs hydrolase 4-MUP 14.7 μM 5.31 -9 M/s 2.74 1/s 734 6 M-1 s-1
    6652 744 Pt-GNRs POD H2O2 6.73 mM 7.73 -9 M/s 3.34 2 1/s 744 light off
    6653 744 Pt-GNRs POD H2O2 14.43 mM 1.89 -8 M/s 8.21 2 1/s 744 light on
    6654 744 GNRs POD H2O2 3.98 mM 4.96 -9 M/s 2.15 2 1/s 744 light off
    6655 744 GNRs POD H2O2 9.28 mM 8.59 -9 M/s 3.73 2 1/s 744 light on
    6659 749 OV-Mn3O4 NFs OXD TMB 1.66 mM 3.97 -8 M/s 749 -8 μM-1 s-1
    6660 749 Mn3O4 NFs OXD TMB 13.2 mM 1.35 -8 M/s 749 -8 μM-1 s-1
    6662 752 Au@Pt POD H2O2 5.75 mM 1.28 -6 M/s 752
    6667 754 CMP-Pt/EG OXD epinephrine. 0.042 mM 18.97 μM/min 754
    6669 758 Ag1Pd1 POD H2O2 25 0.147 M 3.35 μM/min 758
    6670 758 Ag1Pd1 POD TMB 25 0.32 mM 7.16 μM/min 758
    6679 771 AuNP1-Zn(II) hydrolase BNP 8 40 0.086 mM 1.1 -4 1/s 771
    6680 771 AuNP2-Zn(II) hydrolase BNP 8 40 0.19 mM 6.6 -5 1/s 771
    6681 771 AuNP3-Zn(II) hydrolase BNP 8 40 0.093 mM 8.2 -5 1/s 771
    6682 779 PMNSs hydrolase O-phospho-L-tyrosine (P-Tyr) 4.23 -6 M 1.92 -9 M/s 779 The phosphatase-mimetic activity of PMNSs at different Ce concentrations (5,10, 20, and 40 μg/mL) or different P-Tyr concentrations (9, 18, 36, and 72 μM) was detected by the malachite green assay (Sangon Biotech Co., Ltd., China). Theabsorbance of the malachite green solution containing P-Tyr was used as blank. A phosphate standard curve was obtainedby using KH2PO4as the substrate
    6689 787 ZnO-Co3O4 POD H2O2 4.5 RT 1.26 mM 2.13 -8 M/s 787
    6690 787 ZnO-Co3O4 POD TMB 4.5 RT 0.164 mM 4.85 -8 M/s 787
    6694 795 Fe–N/C OXD TMB 0.205 mM 5.411 -7 M/s 5.411 -4 1/s 795
    6695 795 Fe–N/C OXD OPD 0.676 mM 1.06 -6 M/s 3.533 -4 1/s 795
    6696 795 Fe–N/C OXD ABTS 0.118 mM 3.44 -7 M/s 3.822 -4 1/s 795
    6699 798 PtPdCu TNAs POD H2O2 1 mM 13.91 μM/min 98.484 1/min 798
    6700 798 PtPdCu TNAs POD OPD 0.091 mM 4.518 μM/min 31.99 1/min 798
    6701 798 PtPdCu TNAs CAT H2O2 50.172 mM 57723 μM/min 408683 1/min 798
    6712 807 AuNPs OXD Glucose 24.6 mM 57.4 -8 M/s 807
    6713 812 Cu NCs POD H2O2 7.0 35 1 mM 467 nM/s 723 1/s 812
    6714 812 Cu NCs POD OPD 7.0 35 1.09 mM 2.01 -3 mM/s 3146 1/s 812
    6717 821 [Pyr]Ac- Ni0 POD H2O2 0.34 mM 5.1 -8 M/s 821
    6718 821 [Pyr]Ac- Ni0 POD TMB 0.54 mM 7.3 -8 M/s 821
    6719 826 FeWOX NSs POD H2O2 3.26 mM 435 -8 M/s 826
    6720 826 FeWOX NSs POD TMB 0.03 mM 12.25 -8 M/s 826
    6723 830 CA@PtNi hNS POD H2O2 4.0 RT 2.5 mM 38.68 -8 M/s 830
    6724 830 CA@PtNi hNS POD TMB 4.0 RT 0.18 mM 21.89 -8 M/s 830
    6736 838 C-Mn3O4 NPs GPx H2O2 1.09 0.06 mM 0.095 0.011 mM/min 69.12 0.52 1/min 838 M-1 s-1 The C-Mn3O4 nanozyme catalyzed the reduction of H2O2 with a turnover number (kcat) of ≈69.12 ± 0.52 min−1 and an apparent second-order rate constant, kcat/KM ≈ 10 530.17 ± 975.25 M s−1.
    6737 838 C-Mn3O4 NPs GPx GSH 1.36 0.09 mM 0.064 0.008 mM/min 46.73 0.31 1/min 838 M-1 s-1 For oxidation of GSH, the values were found to be kcat ≈ 46.73 ± 0.31 min−1 and kcat/KM ≈ 5717.85 ± 345.72 M s−1.
    6747 856 CNP SOD H2O2 856
    6754 862 CoMoO4 POD H2O2 1.772 mM 862
    6755 862 CoMoO4 POD TMB 0.365 mM 862
    6756 862 NiMoO4 POD H2O2 9.042 mM 862
    6757 862 NiMoO4 POD TMB 0.541 mM 862
    6762 867 Fe3O4 CAT H2O2 867
    6763 868 RuO2 CAT H2O2 3.59 mM 2.29 mM/min 868
    6768 870 Co-Al-Ce MMOs POD H2O2 32.9 mM 870
    6771 872 OAC SOD OAC 12.7 mM 1.7 -5 1/s 872
    6767 873 H-GNs OXD H2O2 1.25 mM 16.7 -8 M/s 873
    6772 873 H-GNs OXD TMB 873
    6780 879 MnO2-Silk CAT H2O2 11.13 2.26 mM 2.74 0.25 mM/min 879
    6786 881 FePOs POD TMB RT 881
    6781 881 FePOs OXD TMB 0.72 0.25 mM 0.85 0.19 mM/min 881
    6789 882 Magnetite POD H2O2 RT 882
    6765 882 o-CDs POD TMB 0.146 mM 20.67 -8 M/s 882
    6770 882 o-CDs OXD TMB 882
    6779 882 Magnetite POD H2Q 0.209 mM 2.85 -8 M/s 882
    6784 882 Magnetite POD OPD + H2O2 26.75 20.1 mM 0.42 0.23 mM/min 882
    6791 883 PVP-PtNC POD TMB + H2O2 883
    6795 887 PEI-600-Fe C-dots POD H2O2 4.55 RT 0.02827 0.00873 mM 36.3782 5.24999 M/s 887
    6783 889 Ptn-JP NCs POD TMB + H2O2 1.22 0.42 mM 0.93 0.24 mM/min 889
    6797 889 Ptn-JP NCs POD H2O2 4.0 25 9.344 mM 12.49 -8 M/s 889
    6798 889 Ptn-JP NCs POD TMB 4.0 25 0.719 mM 51.33 -8 M/s 889
    6793 889 Ptn-JP NCs POD glucose 0.019 mM 58.84 -4 M/s 889
    6788 889 Ptn-JP NCs SOD 889
    6802 895 BSA-MgNPs CAT AR 7.4 20 37 50 70 38.07 μM 3.94 -6 M/s 895
    6801 895 BSA-MgNPs CAT H2O2 7.4 20 37 50 70 10.56 μM 1.7 -6 M/s 895
    6803 896 Ptn-PEI NPs POD H2O2 43.6 mM 8.5 -8 M/s 896
    6804 898 ZnO2/CA-βCD CAT H2O2 898
    6807 902 VOxQDs POD TMB 0.238 mM 2.73 -6 M/s 902
    6808 902 VOxQDs POD H2O2 0.0843 mM 2.809 -6 M/s 902
    6809 903 AuNPs multi-functionalities CO-HAuCl4-En 903
    6814 907 CeNPs SOD H2O2 7.4 907
    6815 908 Au(111) glucose 908 DFT calculations were used to reveal the chiral selective oxidation mechanism of glucose on Au NPs and elucidate the roles of Phe ligands
    6818 913 Cu-HCSs multi-functionalities DNA /proteins 913
    6822 921 g-C3N4/CeO2 POD TMB 0.112 mM 0.985 -8 M/s 921
    6823 921 g-C3N4/CeO2 POD H2O2 0.082 mM 0.437 -8 M/s 921
    6826 923 Au–CeO2 multi-functionalities ROS 923
    6828 926 CuMnO2 NFs POD TMB + H2O2 926
    6833 930 CQDs POD 930
    6834 931 Cu-N-C SAzymes POD TMB 0.101 mM 1.6025 -8 M/s 931
    6835 931 Cu-N-C SAzymes POD H2O2 0.1715 mM 1.2981 -8 M/s 931
    6839 935 CeO2 NPs OXD 935
    6842 938 PtPd NPs POD TMB+HRP 938
    6843 939 MNPs OXD 939
    6849 944 Au@PtRu nanorods POD TMB 0.7 mM 1.3 -6 M/s 3.4 5 1/s 944 5 mM-1 s-1
    6848 946 ssCo3O4 POD H2O2 9.5 mM 15 5 -6 M/s 946
    6853 946 ssCo3O4 POD 946
    6858 956 Fe-N-C POD TMB 4.0 37 0.37 mM 2.70 -7 M/s 956
    6859 957 TiO2@CeO2 SOD&CAT H2O2 7.4 RT 957
    6860 958 Silver citrate Laccase Adrenaline 7.4 RT 0.056 mM 1.18 -2 mM/min 958
    6861 959 Cu2O@Fe(OH)3 POD OPD 0.9 mM 959
    6862 960 Pt NP's POD TMB 1.5 55 0.12 mM 2.82 -8 M/s 960
    6863 961 Au NC's Oxidase Thiamine 7.4 RT 961
    6864 962 Pt POD H2O2 7.4 RT 2.31 mM 3.32 -8 M/s 962
    6865 963 N@GQDs POD H2O2 6.5 RT 5.25 mM 963
    6868 966 Au POD TMB 4.0 37 966
    6869 967 Au POD TMB 6.0 RT 0.11 mM 15.39 -9 M/s 967
    6876 974 GQD POD TMB 4.175 -2 mM 13.55 -8 M/s 974
    6877 975 RuO2 CAT H2O2 0.843 M 10.7 mg L-1 S- 1 mM/min 975
    6878 975 RuO3 POD TMB 75.6 mM 0.753 μM/s 975
    6879 976 FeN5 SAs OXD Na2S2O4 4.2 -5 M 976
    6880 977 RuO2 CAT H2O2 0.843 M 10.7 mg L-1 S- 1 mM/min 977
    6881 977 RuO2 POD TMB 75.6 mM 0.753 μM/s 977
    6882 978 Au NPs OXD Glucose 978
    6883 979 Co3O4/BiPc(OC8H9)12 POD TMB 0.03 mM 14.9 mM/s 979
    6884 979 Co3O4/BiPc(OC8H9)12 POD H2O2 0.27 mM 5.52 mM/s 979
    6894 988 Cy-AuNCs POD TMB 1.925 mM 212.3 -8 M/s 988
    6898 990 Pd1Cu1.7 NAFs POD TMB 0.377 mM 53.24 -8 M/s 990
    6897 991 PtRu ANPs POD H2O2 0.24 mM 5.01 -7 M/s 991
    6902 991 PtRu ANPs POD TMB 4 0.016 mM 4.43 -8 M/s 991
    6905 993 CeO2 POD H2O2 4 14.9 mM 74.4 -8 M/s 993
    6895 993 Pd NAFs POD H2O2 2.812 mM 15.8 -8 M/s 993
    6910 993 CeO2 POD 993
    6900 993 Pd NAFs POD TMB 0.04 mM 16.89 -8 M/s 993
    6899 997 CA@PtRu ANPs POD H2O2 7.782 mM 69.04 -8 M/s 997
    6904 997 CA@PtRu ANPs POD TMB 4 0.046 mM 10.19 -8 M/s 997
    6909 997 Fe3O4@PEG + Pt@PEG POD H2O2 2-11 20-80 19.96 mM 0.142 -6 M/s 997
    6914 997 MoS2 POD H2O2 550 mM 1.07 -3 mM/s 997
    6919 997 MoS2 POD 997
    6920 998 CS-nFs POD OPD 143.29 0.01 μM 1.0193 -6 M/s 84.95 0.02 1/s 998
    6925 1003 V4O7 OXD catechol 4.2 25 6.03 mM 1.89 μM/min 5.80 -3 1/s 1003
    6930 1005 Pt-PIL-MWCNTs POD H2O2 4.0 40 16.55 mM 7.163 -8 M/s 1005
    6922 1006 V4O7 OXD TMB 0.39 mM 1.11 -7 M/s 1006
    6917 1006 Fe-HCl-NH2-UiO-66 NPs POD H2O2 3.48 mM 4.55 -7 M/s 1006
    6927 1006 V4O7 OXD quercetin 4.2 25 0.08 mM 232.6 μM/min 1.95 -1 1/s 1006
    6932 1006 FDG-20 POD H2O2 4 30 0.089 mM 5.55 -8 M/s 1006
    6934 1008 FDG-15 POD H2O2 0 0 0.287 mM 3.39 -8 M/s 1008
    6928 1008 V2O5 POD 0.71 mM 476.2 μM/min 1.44 -1 1/s 1008
    6933 1008 Fe3O4 POD TMB 4 30 0.242 mM 3.9 -8 M/s 1008
    6938 1008 Fe3O4 POD H2O2 4 30 0.355 mM 1.6 -8 M/s 1008
    6939 1008 NiCo2S4 POD TMB 0 0 0.373 mM 1.43 -8 M/s 1008
    6943 1008 NiCo2S4 POD TMB 4 30 0.53 mM 4.10 -8 M/s 1008
    6944 1008 NiCo2S4 POD H2O2 0.664 mM 1.50 -8 M/s 1008
    6946 1010 αFe2O3NPs 1010
    6941 1010 αFe2O3NPs 0 TMB 0 0 0.626 mM 1.14 -8 M/s 1010
    6936 1010 FDG-10 POD H2O2 0 0 0.302 mM 2.41 -8 M/s 1010
    6926 1010 V2O5 POD 2.39 mM 158.7 μM/min 1.04 -4 1/s 1010
    6931 1010 FDG-10 POD TMB 0 0 0.522 mM 10.467 -8 M/s 1010
    6949 1015 AA-PtNPs 1015
    6955 1022 Co3O4 Nanoplates 1022
    6964 1034 pyrite nanozyme POD H2O2 16.67 mM 0.5 -8 M/s 1034
    6969 1034 pyrite nanozyme POD H2O2 0.041 mM 135.4 nM/s 3.67 4 1/s 1034 8 M-1 s-1
    6971 1036 Co3O4 POD TMB 0.0213 mM 1.38 -7 M/s 1.65 4 1/s 1036
    6988 1045 PtO2 POD TMB 0.115 mM 1045
    6990 1047 CNPs CAT H2O2 7.4 0.06948 M 0.43 mg L-1 min-1 1047
    6991 1047 CNPs CAT H2O2 6.6 0.09469 M 0.21 mg L-1 min-1 1047
    6999 1056 WS2 nanosheets POD TMB 12.125 mM 2.036 -8 M/s 1056 1056
    7000 1056 WS2 nanosheets POD H2O2 0.713 mM 3.145 -8 M/s 1056 1056
    7001 1056 WS2 nanosheets POD TMB 5.175 mM 5.096 -8 M/s 1056 1056
    7002 1056 WS2 nanosheets POD TMB 4.437 mM 10.865 -8 M/s 1056 1056
    7003 1056 WS2 nanosheets POD H2O2 0.702 mM 1.93 -8 M/s 1056 1056
    7004 1056 WS2 nanosheets POD TMB 9.12 mM 4.795 -8 M/s 1056 1056
    7006 1056 WS2 nanosheets POD TMB 11.584 mM 2.364 -8 M/s 1056 1056
    7005 1056 WS2 nanosheets POD H2O2 0.714 mM 1.02 -8 M/s 1056 1056
    6997 1056 WS2 nanosheets POD H2O2 0.696 mM 7.506 -8 M/s 1056 1056
    6998 1056 WS2 nanosheets POD H2O2 0.756 mM 0.844 -8 M/s 1056 1056
    7011 1060 LSG OXD HX 66.84 μM 1060 1060
    7009 1060 LSG OXD HX 58.52 μM 1060 1060
    7010 1060 LSG OXD XT 72.49 μM 1060 1060
    7012 1060 LSG OXD XT 81.35 μM 1060 原文数据即有两个小数点,存疑
    7042 1076 MnO2-Dox@HFn POD TMB 5.23 mM 28.87 -6 M/s 1076 1076
    7043 1077 WS2 nanosheets POD OPD 1077 他说table S1里有 其实没有Table S1
    7045 1079 Copper Nanozyme POD ABTS 36 mM 1.74 μM/min 1079 1079
    7044 1079 Copper Nanozyme POD H2O2 25 mM 2.32 μM/min 1079 1079
    7054 1086 FeVO4 POD 4-chloro1-naphtho 1086 1086
    7055 1090 CeO2-10nm CAT H2O2 10 mM 6.5 -6 μM/min 1090 1090
    7056 1090 CeO2-2nm CAT H2O2 6.5 mM 16.2 -6 μM/min 1090 1090
    7066 1098 Au NCs(965) OXD nitrobenzene 3.4 0.6 mM 0.69 0.09 mM/min 2.4 0.3 1/min 1098 0.21 1098
    7065 1098 Au NCs(90) OXD nitrobenzene 6 1.2 mM 0.15 0.02 mM/min 0.52 0.07 1/min 1098 0.029 1098
    7067 1098 Au NCs(300) OXD nitrobenzene 4.1 0.5 mM 0.3 0.02 mM/min 1 0.1 1/min 1098 0.05 1098
    7069 1104 CuMn2O4 POD OPD 0.08 mM 10.8 -7 M/s 1104 1104
    7070 1104 CuMn2O4 POD H2O2 0.59 mM 16.9 -7 M/s 1104 1104
    7072 1107 Mn/PSAE OXD TMB 6 25 0.11 mM 7 -8 M/s 1107 1107
    7071 1107 Mn/PSAE POD H2O2 6 25 0.09 mM 16 -8 M/s 1107 1107
    7073 1107 Mn/PSAE POD TMB 6 25 0.14 mM 30 -8 M/s 1107 1107
    7074 1108 CeO2-nanorods OXD ABTS 4 RT 0.29 mM 0.48μM/s 1108 1108
    7075 1108 CeO2-nanoparticles OXD ABTS 1 RT 0.87 mM 1.03μM/s 1108 1108
    7076 1108 CeO2-nanoparticles OXD ABTS 4 RT 1.61 mM 0.20μM/s 1108 1108
    7077 1108 CeO2-nanorods OXD ABTS 1 RT 0.17 mM 11.24μM/s 1108 1108
    7081 1115 CeO2 POD H2O2 4.5 RT 2.5 mM 4.56 -8 M/s 1115 1115
    7082 1115 CeO2 POD H2O2 7.4 RT 0.5 mM 2.9 -8 M/s 1115 1115
    7083 1118 Cu NanoZyme POD H2O2 5 37 7.9 mM 10.3 -8 M/s 1.21 -5 1/s 1118 1118
    7084 1118 Cu NanoZyme POD TMB 5 37 0.25 mM 21.5 -8 M/s 2.53 -5 1/s 1118 1118
    7094 1126 g-CNQDs POD TMB 0.079 mM 1.461 -8 M/s 1126
    7093 1126 g-CNQDs POD H2O2 10.788 mM 1.717 -8 M/s 1126
    7096 1127 1-Me-D-Trp@AuNCs POD TMB 1.51 mM 1.91 -8 M/s 1127
    7095 1127 1-Me-D-Trp@AuNCs POD H2O2 6.3 -3 mM 0.46 -8 M/s 1127
    7103 1135 Ni–Pt NPs POD TMB 3.5 -2 M 2.6 -5 M/s 4.5 7 1/s 1135
    7108 1145 C-IONPs POD H2O2 114 mM 0.197 -8 M/s 1.31 × 10–4 1145
    7109 1145 C-IONPs POD TMB 0.0992 mM 0.156 -8 M/s 1.04 × 10–4 1145
    7110 1148 Pd NCs POD H2O2 25 80.8 mM 5.652 μM/min 1148
    7111 1148 Pd NCs POD TMB 25 0.063 mM 4.584 μM/min 1148
    7119 1155 Au25 CAT 0.074 mM/min 1155
    7116 1155 Au25 GPx 0.47 mM/min 1155
    7117 1155 Au24Cu1 GPx 0.34 mM/min 1155
    7118 1155 Au24Cd1 GPx 0.10 mM/min 1155
    7120 1155 Au24Cu1 CAT 0.35 mM/min 1155
    7126 1165 CuNFs POD H2O2 6.5 mM 0.02 -3 mM/s 1165
    7127 1165 CuNFs POD TMB 0.07 mM 0.12 -3 mM/s 1165
    7129 1166 Pt–Ir NCs POD TMB 0.38 mM 3.4 -8 M/s 1166
    7128 1166 Pt–Ir NCs POD H2O2 4.13 mM 2.6 -8 M/s 1166
    7130 1167 Cu2O NPs POD H2O2 0.729 mM 2.68 -8 M/s 1167
    7131 1167 Cu2O NPs POD TMB 0.128 mM 1.11 -8 M/s 1167
    7153 1209 Cu/CeS POD H2O2 43.3 14.5 mM 1209
    7155 1210 Cr/CeO2 POD H2O2 0.867 0.073 mM 0.159 0.024 -6 M/s 1210
    7154 1210 Cr/CeO2 POD TMB 0.08 0.009 mM 0.138 0.027 -6 M/s 1210
    7156 1214 Cu2+-HCNSs-COOH POD H2O2 0.88 mM 1214
    7157 1216 g-C3N4 + Fe(III)+ Cu(II) 1216
    7161 1220 Bro-MnO2 1220
    7162 1223 CoFe2O4 POD H2O2 6.55 0.441 μM 0.0226 μM/min 1223
    7163 1224 CuCo2O4 microspheres POD H2O2 5.0 40 0.59 mM 6.83 -8 M/s 1224
    7164 1224 CuCo2O4 microspheres POD TMB 5.0 40 0.1646 mM 63.54 -8 M/s 1224
    7165 1227 CeO2 OXD TMB 1227
    7174 1235 Fe-N-C single atom POD H2O2 38.62 mM 4.865 -7 M/s 1235
    7175 1235 Fe-N-C single atom POD TMB 0.091 mM 3.335 -7 M/s 1235
    7179 1243 carbon polymer hollow spheres (CPHSs) POD 1243
    7181 1245 CeO2 CAT H2O2 1245
    7183 1249 Fe3O4 POD TMB 0.905 0.222 mM 227.2 27.5 nM/s 1249
    7185 1249 Fe3O4 CAT H2O2 0.192 0.0844 mM 7.739 1.169 mg/L/s 1249
    7184 1249 Fe3O4 POD H2O2 459.7 103.4 mM 403.8 70.8 nM/s 1249
    7189 1260 MTex-500 POD H2O2 55.33066 mM 20 -6 M/min 1260 1260
    7193 1264 Mn3O4 POD GSH 1.58 -5 M 2.5 -5 M/min 1264 1264
    7192 1264 Mn3O4 POD TMB 3.98 -5 M 2.7 -4 M/min 1264 1264
    7204 1284 CQDs POD H2O2 0.16 mM 4.38 -8 nM/s 1/s 1284 M-1 s-1 1284
    7203 1284 CQDs POD TMB 0.6 mM 2.15 -8 nM/s 1/s 1284 M-1 s-1 1284
    7205 1287 GNE-based Au NPs POD H2O2 0.118 mM 0.147 μM/s 1287 1287
    7206 1287 GNE-based Au NPs OXD Glucose 0.089 mM 0.133 μM/s 1287 1287
    7211 1295 RSPCO POD TMB 0.68 mM 24.5 -8 M/s 1295 1295
    7213 1295 RSPCO OXD H2O2 22 mM 46.9 -8 M/s 1295 1295
    7210 1295 RSPCO OXD OPD 0.064 mM 49.3 -8 M/s 1295 1295
    7212 1295 RSPCO POD H2O2 70.5 mM 7.1 -8 M/s 1295 1295
    7215 1297 Rh NPs POD TMB 0.78 mM 16.26 -8 M/s 1297 1297
    7214 1297 Rh NPs POD H2O2 0.37 mM 3.92 -8 M/s 1297 1297
    7216 1303 Au@Pt NRs POD TMB 1303 1303
    7218 1305 MoS2 POD TMB 1305 1305
    7220 1308 Cu NPs hydrolase Salicylic acid acyl-β-d-glucuronide 1308 1308
    7222 1310 MnO2@polymer POD TMB 1310 1310
    7223 1311 Metal oxide into the glass composition CAT H2O2 1311 1311
    7228 1316 Fe3O4 NPs POD 1316 1316
    7229 1317 Pd POD 1317 1317
    7230 1319 MnSiO3 1319 1319
    7236 1325 GOQD POD H2O2 0.61 mM 6.8 -9 M/s 1325 1325
    7235 1325 GOQD-MPS POD H2O2 1.7 mM 7.5 -7 M/s 1325 1325
    7237 1326 SBA-AmPA/Au POD TMB 0.22 mM 0.8567 -8 M/s 1326 1326
    7238 1326 SBA-AmPA/Au POD H2O2 128 mM 1.83 -8 M/s 1326 1326
    7239 1327 LaFeO3 POD H2O2 0.209 mM 172.47 -8 M/s 1327 1327
    7240 1327 LaFeO3 POD TMB 0.427 mM 73.01 -8 M/s 1327 1327
    7262 1350 MoOx QDs POD H2O2 0.44 mM 1.07 -8 M/s 1350 1350
    7263 1350 MoOx QDs POD TMB 5.27 mM 16.12 -8 M/s 1350 1350
    7270 1358 Fe2.5Ti0.5O4-DES POD methylene blue 1358 1358
    7271 1359 MIONzyme POD H2O2 38 mM 8.5 -9 M/s 1359 1359
    7282 1369 fNP C POD 10.49 mM 17.25 -4 μM/min 1369 1369
    7283 1369 fNP B POD 7.01 mM 22.62 -4 μM/min 1369 1369
    7287 1374 IONPs POD TMB 6.8 0.13 mM 0.97 μM/min 22.4 3 1/s 1374 8 M-1 s-1 1374
    7286 1374 IONPs POD TMB 3.6 0.35 mM 25.97 μM/min 1.9 5 1/s 1374 8 M-1 s-1 1374
    7293 1385 Co2+ POD H2O2 0.31 mM 2.8 -8 M/s 1385 1385
    7294 1385 Co2+ POD ABTS 12.1 mM 4.7 -7 M/s 1385 1385
    7297 1388 nano-PrO1.8 POD TMB 0.0367 mM 0.521 -8 M/s 1388 1388
    7298 1388 nano-PrO1.8 POD H2O2 0.1502 mM 0.006298 -8 M/s 1388 1388
    7303 1390 PbWO4 POD ABTS 0.325 mM 13.56 -8 M/s 1390 1390
    7304 1392 MnxCo1-xO OXD TMB 0.0187 mM 7.62 -8 M/s 1392 1392
    7306 1397 citrate-Os NPs POD TMB 0.096 mM 4.12 -7 M/s 1.72 3 1/s 1397 7 M-1 s-1 1397
    7305 1397 citrate-Os NPs POD H2O2 3.88 mM 5.65 -7 M/s 2.35 3 1/s 1397 5 M-1 s-1 1397
    7309 1399 CeCDs hydrolase BNPP 8.66 -4 M 1.58 -4 M/s 2.00 -3 1/min 1399 1399
    7333 1417 Au@SiO2@Fe3O4@SiO2 microspheres POD OPDA 552.5 μM 19.6 μM/min 1417
    7339 1424 MoS2-Au@Pt POD 1424
    7343 1428 WBLCS POD H2O2 0.04 mM 35.6 -8 M/s 1428
    7342 1428 WBLCS POD TMB 0.435 mM 68.5 -8 M/s 1428
    7344 1429 MnO2 OXD TMB 0.781 mM 0.668 -6 M/s 1429
    7345 1430 Pd-Pt POD TMB 0.48 mM 0.71 -6 M/s 10*6 1/s 1430
    7347 1433 casein-CuS hybrid POD H2O2 234 mM 22.5 -8 M/s 1433
    7346 1433 casein-CuS hybrid POD TMB 0.355 mM 22.5 -8 M/s 1433
    7349 1436 Ag@PANI POD TMB 1436
    7355 1440 Fe3O4 mesocrystals POD TMB 1440
    7361 1441 CeO2 Cube POD TMB 0.1801 mM 1.0904 μM/min 1441
    7359 1441 CeO2 Rod POD TMB 0.23 mM 0.1646 μM/min 1441
    7360 1441 CeO2 Cube POD H2O2 30.9 mM 3.4521 μM/min 1441
    7356 1441 CeO2 Octa. POD H2O2 415.2 mM 0.8163 μM/min 1441
    7357 1441 CeO2 Octa. POD TMB 3.743 mM 0.2736 μM/min 1441
    7358 1441 CeO2 Rod POD H2O2 302 mM 2.5813 μM/min 1441
    7365 1450 2D SnSe dehydrogenase 1450
    7367 1455 IrOx POD 1455
    Clear Search({{select.length}})
    Periodic table
    {{item[0]}}{{item[1]}}
    Nanozyme Database
    OK
    Cancel