1. Fluorescent Dye
  2. Cell Staining Analysis
  3. Ion Fluorescent Probes
  4. Fe2+ Indicator Probes

Fe2+ Indicator Probes

Fe2+ Indicator Probes (9):

Cat. No. Product Name CAS No. Purity Chemical Structure
  • HY-D1301
    BODIPY 581/591 C11 217075-36-0 99.21%
    BODIPY 581/591 C11 is a BODIPY borofluoroprene derivative with good light stability and low fluorescence artifacts. BODIPY 581/591 C11 can be used for study lipid peroxidation and antioxidant properties in living cells, or detect ferroptosis by reaction with hydroxyl radicals. BODIPY 581/591 C11 is emitted at 591 nm (reduced prototype), or redshifted to 510 nm (oxidized type). The excitation wavelengths were 581 nm (reduced prototype) and 500 nm (oxidized type).
    BODIPY 581/591 C11
  • HY-D1533
    RhoNox-1 1447815-38-4 98.54%
    RhoNox-1 is a fluorescent probe for the specific detection of divalent iron ions, and when RhoNox-1 reacts with Fe2+. RhoNox-1 can generate an irreversible orange (red) fluorescent product (Ex/Em:540/575 nm) . FeRhoNox-1 can enter the cell well, suitable for the detection of Fe2+ in living cells, and tends to be localized in the Golgi apparatus.
    RhoNox-1
  • HY-D1412
    LPd peroxida probe 1448846-35-2
    LPd peroxida probe, a marker of ferroptosis, is a useful fluorescent probe for investigating the roles of lipid peroxidation in a variety of cell pathophysiologies. LPd peroxida probe reduces lipid hydroperoxides to lipid alcohols and is used for imaging lipid hydroperoxides in living cells.
    LPd peroxida probe
  • HY-137805
    Ferrozine 69898-45-9 99.96%
    Ferrozine is a spectrophotometric reagent for iron, can react with divalent Fe to form a stable magenta complex species. The complex has an absorption peak at 562 nm.Ferrozine-based colorimetric assays can quantify iron in cells
    Ferrozine
  • HY-149203A
    MQA-P TFA
    MQA-P is a multifunctional near-infrared (NIR) fluorescent probe that simultaneously detects ONOO-, viscosity, and polarity within mitochondria. MQA-P exhibits significant response to ONOO-, λem=645 nm; and NIR channel at λem>704 nm Medium is highly sensitive to viscosity/polarity. MQA-P possesses excited-state intramolecular charge transfer (ESICT) properties that are highly sensitive to polarity by designing the N,N-dimethylamino group as the electron donor and the quinoline cation unit as the electron acceptor. MQA-P is used for ferroptosis or cancer diagnosis in vitro and in vivo via dual-channel images.
    MQA-P TFA
  • HY-162051
    CYP1B1-IN-6
    CYP1B1-IN-6 (compound 19) is a fluorescence molecular probes which inhibits CYP1B1 activity. CYP1B1-IN-6 can identify tumor sites in fluorescence imaging and photoacoustic imaging modes.
    CYP1B1-IN-6
  • HY-D2204
    SHP1-IN-1 2956720-62-8
    SHP1-IN-1 (compound 5p) is a fluorescent probe for the protein tyrosine phosphatase SHP1 containing the Src homology 2 domain. SHP1-IN-1 has SHP1 inhibitory activity, selectivity for Fe3+ ions and good fluorescence properties. SHP1-IN-1 exhibits aggregation post-quenching (ACQ) effect, good interference immunity and low detection limit (5.55 μM).
    SHP1-IN-1
  • HY-D0006A
    Bathophenanthroline disulfonic acid sodium 98645-86-4
    Bathophenanthroline disulfonic acid sodium is a multifunctional dye. Dyes are important tools in biological experiments. They can help researchers observe and analyze cell structures, track biomolecules, evaluate cell functions, distinguish cell types, detect biomolecules, study tissue pathology and monitor microorganisms. Their applications range from basic scientific research to clinical A wide range of diagnostics. Dyes are also widely used in traditional fields such as textile dyeing, as well as in emerging fields such as functional textile processing, food pigments and dye-sensitized solar cells.
    Bathophenanthroline disulfonic acid sodium
  • HY-149028
    Mem-C1C18
    Mem-C1C18 is a polarity-sensitive fluorescent probe with excellent plasma membrane anchoring, high brightness and a sensitive response to environmental polarity by altering the fluorescence lifetime. Mem-C1C18 can be used to quantify changes in the polarity of the plasma membrane during iron death.
    Mem-C1C18