Table 2.
Various other Conjugated Polymers and their applications
|
Conjugated Polymer |
Excitation | Emission | Sensing Analyte |
Sensing Mechanism |
Ref |
|---|---|---|---|---|---|
| PFEP | 405 nm | 525 nm | CD44 | Disruption of FRET | [56] |
| PFBT | 473 nm | 540 nm |
Glutathione S-transferase (GST) |
Disruption of FRET |
[57] |
| PBEC | 430 nm | 554 nm |
Glutathione (GSH) |
Disruption of FRET |
[58] |
| PFO | 380 nm | 586 nm | Tyrosinase (TR) |
Photo-induced electron transfer (PET) |
[59] |
| PFPy | 430 nm | 553 nm | TNT | RET and FRET | [60] |
| PFTBTCOOH | 380 nm | 425 nm |
Biogenic amines |
Aggregation induced FRET |
[61] |
| PFBT | 370 nm | 419& 530 nm | Picric acid | IFE | [62] |
| PF-DBT-PEG | 380 nm | 420 nm | Thiol |
Aggregation induced FRET |
[63] |
| PF-DBTBIMEG | 380 nm | 420 nm |
Adenosine triphosphate (ATP) |
Aggregation induced FRET |
[64] |
| PMI | 325 nm | 406 nm | Nitro-explosive | RET | [44] |
| PFPBA | 410 nm | 529 nm | Dopamine |
Charge transfer (CT) |
[65] |
| PMI | 325 nm | 406 nm | Flavins | FRET | [66] |
| PPE | 380 nm | 500–580 nm | Imaging of mammalian cells | Electrostatic interaction | [67] |
| PTPEDC | 350 nm | 650 nm | in vitro cancer cell-ablation & in vivo zebrafish liver tumor treatment | Photodynamic | [68] |
| PFMI | 370 nm | 420 nm | Picric acid | RET | [45] |
| PPE | 380 nm | 500 nm | SARS-CoV-2 | Photodynamic/electrostatic interaction | [69] |