Table 1.
Summarization of immunoassays with diverse signals based on nanozymes for target analytes detection.
| Nanozymes | Signals | Analyte | Limit of Detection (LOD) | Comparison of Sensitivity with Natural Enzymes-Labeled Immunoassays | Ref. |
|---|---|---|---|---|---|
| Ps-Pt | Colorimetric | S. typhi | 100 CFU mL−1 | - | [24] |
| a-RuTe2 nanorods | Colorimetric | PSA | 32.6 pg mL−1 | The LOD was one order of magnitude lower than that of ELISA. | [25] |
| PBNPs | Colorimetric | HSA | 1.2 ng mL−1 | The LOD was improved by 3 orders of magnitude that of ELISA. | [26] |
| Fe3O4@SiO2-NH2-Au@Pd0.30NPs | Colorimetric | antip53aAbs | 15 pg mL−1 | The LOD was lower than that of ELISA (0.19 ng mL−1). | [27] |
| aptamer-AuNPs | Colorimetric | CRP | 8 pg mL−1 | The LOD was lower than that of ELISA (0.14 μg mL−1). | [28] |
| LMs | Colorimetric | α-LA | 0.056 ng mL−1 | - | [29] |
| TiO2-CA NPs | Colorimetric | ALP | 0.002 U L−1 | - | [30] |
| MnO2 nanoflakes | Colorimetric | AFP | 0.148 ng mL−1 | - | [31] |
| 2D GO/Fe-MOF | Colorimetric | BPDE-DNA | 0.268 ng mL−1 | - | [32] |
| Cu(OH)2-DNAzymes | Colorimetric | MC-LR | 6 ng L−1 | The LOD was lower than that of ELISA (190 ng L−1). | [33] |
| Fe-N-C single-atom | Colorimetric | CEA | 0.55 pg mL−1 | The LOD was lower than that of ELISA (2 pg mL−1). | [34] |
| FeSA−PtC nanozymes | Colorimetric | PSA | 1.8 pg mL−1 | - | [35] |
| AuNZs | Colorimetric | influenza virus A (H1N1) | 44.2 × 10−15 g mL−1 |
- | [36] |
| TMB NPs | Colorimetric | interleukin-6 | 0.66 pg mL−1 | The sensitivity was 11.82 times higher than that of ELISA (7.8 pg mL−1). | [37] |
| TMBZ-AuNPs | Colorimetric | influenza virus A (H5N1) | 1.11 pg mL−1 | The LOD was lower than that of ELISA (909 pg mL−1). | [38] |
| PDA-Fe(III) NPs | Colorimetric | PSA | 0.84 pg mL−1 | The LOD was lower than that of ELISA (6.81 pg mL−1). | [39] |
| AuNSs@CTAB | Colorimetric | HCG | 7.8 mIU mL−1 | - | [40] |
| Au@Pt probes | Colorimetric | parathion | 2.13 ng·kg−1 |
The LOD was lower than that of ELISA (20.82 ng·kg−1). | [41] |
| PVP-PtNC nanozyme | Colorimetric | AMD | 0.134 ng mL−1 | The LOD was lower than that of HRP-labeled IgG catalyzed colorimetric reactions (0.343 ng mL−1). | [42] |
| Co(OH)2 nanocages | Colorimetric | ochratoxin A | 0.26 ng L−1 | - | [43] |
| SAN | Colorimetric | cTnI-TnC Myo |
0.012 ng mL−1 0.2 ng mL−1 |
The LODs were lower than ELISA kit (0.03 ng mL−1 for cTnI, and 5 ng mL−1 for Myo). | [44] |
| Fe3O4@PDA@Pd/Pt | Colorimetric | E. coli O157:H7 | 9 × 101 CFU mL−1 |
- | [45] |
| man-PB | Colorimetric | E. coli O157:H7 | 102 CFU mL−1 | - | [46] |
| Pd@Pt | Colorimetric |
S. Enteritidis E. coli O157:H7 |
∼20 CFU mL−1 ∼34 CFU mL−1 |
The LOD was 100-fold more sensitive than AuNP-based LFIAs and similar to HRP enhanced LFIAs. | [47] |
| PtGNs | Colorimetric | E. coli O157:H7 | 3.3 × 104 CFU mL−1 |
30-fold improvement in LOD was achieved over the conventional LFA. | [48] |
| in situ gold growth of AuNPs | Colorimetric | E. coli O157:H7 | 1.25 × 10 CFU mL−1 |
The LOD was 400-fold lower than colloidal gold immunochromatography assay. | [49] |
| MNP | Colorimetric | ES | 2 CFU mL−1 | - | [50] |
| PtPd nanoparticles | Colorimetric | BChE | 0.025 nM | - | [51] |
| MPBN | Colorimetric | CLE RAC |
0.20 ng mL−1 0.12 ng mL−1 |
- | [52] |
| Pd@Pt NP | Colorimetric | Atrazine acetochlor |
0.24 ppb 3.2 ppb |
- | [53] |
| Au@Pt nanozyme | Colorimetric | STR | 1 ng mL−1 | The LOD was lower than LFA based on AuNPs (8 ng mL−1). | [54] |
| MnO2 NFs | Fluorescence | CRP | 0.67 pg mL−1 | The LOD was lower than electrochemical ELISA (12.5 pg mL−1). | [55] |
| Pd-Ir nanocubes | Fluorescence | cardiac troponin I | 0.31 pg mL−1 | - | [56] |
| Au@Pt nanozyme | Fluorescence | parathion Triazophos chlorpyrifos |
9.88 ng kg−1 3.91 ng kg−1 1.47 ng kg−1 |
- | [57] |
| CuONRs | Chemiluminescence | CEA | 0.05 ng mL−1 | The LOD was 12-fold more sensitive than HRP-labeled sandwich CLIA. | [58] |
| Co-Fe@hemin | Chemiluminescence | SARS-CoV-2 antigen | 0.1 ng mL−1 | - | [59] |
| CuSNPs | Chemiluminescence | IFN-γ IL-4 |
2.9 pg mL−1 3.2 pg mL−1 |
The LOD was lower than ELISA (500 pg mL−1 for IFN-γ) and CLIA (20 pg mL−1 for IL-4). | [60] |
| nanoceria | Chemiluminescence | PSA | 53 fg mL−1 | - | [61] |
| PtDEN | Electrochemical | ProGRP | 0.86 pg mL−1 | The LOD was lower than EC immunosensor (10 pg mL−1). | [62] |
| 2D Cu-TCPP(Fe) | Electrochemical | SAs | 0.395 ng mL−1 | - | [63] |
| PtNP | Electrochemical | TSH | 0.3 pg mL−1 | - | [64] |
| PbS NCs | Electrochemiluminescence | AFP | 3.0 fg mL−1 | The LOD was lower than ELISA (0.1 ng mL−1). | [65] |
| PtCo nanozymes | Electrochemiluminescence | anti-MPO | 7.39 fg mL−1 | - | [66] |
| PtAu BNT | Electrochemiluminescence | PRRSV | 10.8 pg mL−1 | - | [67] |
| Ag-NPs | SERS | CRP | 1.09 ng mL−1 | - | [68] |
| CeO2 | SERS | α-LA | 0.01 ng mL−1 | The LOD was lower than ELISA (0.128 ng mL−1). | [69] |
| AuNPs doped COF | SERS | β-lactoglobulin | 0.01 ng mL−1 | The LOD was lower than sandwich ELISA (33.95 ng mL−1). | [70] |
| Fe3O4 | Photoelectrochemical | PSA | 18 fg mL−1 | The LOD was lower than sandwich HRP labeled PEC immunoassay (37 fg mL−1). | [71] |
| PdPt bimetallic nanozymes | Photoelectrochemical | CEA | 0.21 pg mL−1 | - | [72] |
| BSA@Au NPs | Photoelectrochemical | CYFRA21-1 | 1.12 fg mL−1 | - | [73] |
| Au@Pt NP | Height of foam | E. coli O157:H7 | 2.16 × 102 CFU mL−1 | - | [74] |
| Fe-MOF/PtNPs | Temperature | Salmonella | 93 CFU mL−1 |
The LOD was lower than sandwich ELISA (104 CFU mL−1). | [75] |
| nanoceria | Colorimetric Ratiometric fluorescence |
cTnI | 0.227 pg mL−1 0.413 pg mL−1 |
- | [76] |
| Pt nanozymes | Colorimetric Electrochemical |
GA | 9.2 μg mL−1 3.8 μg mL−1 |
- | [77] |
| MoS2 NSs | Colorimetric Electrochemiluminescence Photothermal |
HE4 | 3 × 10−5 ng mL−1 3 × 10−7 ng mL−1 - |
- | [78] |
- not mentioned. Abbreviations: α-LA: alpha-lactalbumin; AFP: alpha fetoprotein; Ag-NPs: silver nanoparticles; AMD: amantadine; anti-MPO: Anti-myeloperoxidase antibody; antip53aAbs: tumor-associated anti-p53 autoantibodies; aptamer-AuNPs: aptamer-functionalized gold nanoparticles; a-RuTe2: amorphous RuTe2; AuNPs doped COF: gold nanoparticles doped covalent organic frameworks; AuNZs: gold nanozyme; AuNPs@CTAB: cetyltrimethylammonium bromide (CTAB)-coated gold nanoparticles; Au@Pt NP: gold and platinum nanoparticles; BChE: butyrylcholinesterase; BPDE−DNA: benzo[a]pyrene-7,8-diol 9,10-epoxide−DNA adduct; BSA@Au NPs: bovine serum albumin stabilized gold nanoparticles; CEA: carcinoembryonic antigen; CLE: clenbuterol; Co(OH)2 nanocages: cobalt hydroxide nanocages; CRP: C-reactive protein; cTnI: cardiac troponin I; cTnI-TnC: I-troponin C; CuONRs: cupric oxide nanorods; CuSNPs: carboxylated copper monosulfide nanoparticles; CYFRA21-1: cytokeratin 19 fragment 21-1; 2D GO/Fe-MOF: Graphene oxide (GO)/Fe-based metal−organic frameworks (Fe-MOF); E. coli O157:H7: Escherichia coli O157:H7; ES: Enterobacter sakazakii; FeSA-PtC nanozyme: Pt clusters loading on the Fe single-atom; Fe3O4@SiO2-NH2-Au@Pd0.30NPs: nanomagnet-silica nanoparticles decorated with Au@Pd; Fe3O4@PDA@Pd/Pt: polydopamine (PDA)-mediated magnetic bimetallic nanozyme; Fe-MOF/PtNPs: Fe-MIL-88NH2 metal−organic framework nanocubes decorated with platinum nanoparticles; GA: glycated albumin; HCG: human chorionic gonadotropin; HE4: human epididymis-specific protein 4; HSA: human serum albumin; LMs: laccase mimics nanozymes; man-PB: mannose modified Prussian blue; MnO2 NFs: manganese dioxide nanoflowers; MNP: magnetic nanoparticle; MoS2 NSs: MoS2 nanosheets; Myo: myoglobin; PbS NCs: lead sulfide nanocrystals; PtDEN: platinum nanoparticles encapsulated inside dendrimers; ProGRP: pro-gastrin-releasing peptide; PtNP: Pt nanoparticle; PtAu BNT: Au/PtAu bimetallic heterojunction nanotube; PRRSV: porcine reproductive and respiratory syndrome virus; MC-LR: microcystin-LR; MPBN: magnetic prussian blue nanozyme; PBNPs: Prussian blue nanoparticles; PDA: polydopamine (PDA) nanoparticle; Pd@Pt NP: palladium@platium nanoparticle; Ps-Pt: platinum-nanoparticles on the surface of carboxyl functionalized polymer nanospheres; PSA: prostate-specific antigen; PtGNs: Platinum-coated gold nanozymes; PVP-PtNC nanozyme: polyvinylpyrrolidone (PVP) capped Pt nanocubes; RAC: ractopamine; SAs: sulfonamides; SANs: self-assembled allochroic nanoparticles; S. typhi: Salmonella typhimurium; STR: streptomycin; S. Enteritidis: Salmonella Enteritidis; TMB NPs: Allochroic 3,3′,5,5′-tetramethylbenzidine (TMB) nanoparticles; TMBZ-AuNPs: 3,3′,5,5′- Tetramethylbenzidine (TMBZ)-gold nanoparticles; TiO2-CA NPs: CA coordinated TiO2; TSH: thyroid-stimulating hormone.