Amine Iron Oxide Nanoparticles

SKU:BHD12200039
Overview
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Amine-functionalized superparamagnetic iron oxide nanoparticles (5–30 nm) with primary amine (NH₂) surface groups for carboxyl/thiol coupling strategies. Applied to MRI imaging, MPI, magnetic sensing, drug delivery, and diagnostic assay development.
Particle Type Iron Oxide Nanoparticle
Surface Chemistry Amine
Particle Size 5 nm–30 nm
Conjugation Type Activated (Ready-to-conjugate)
Dispersion Aqueous
Applications MRI Imaging, Magnetic Particle Imaging, Drug Delivery
Options selector
Catalog no. Particle Size Volume
SHA05-01 5 nm
SHA10-01 10 nm
SHA15-01 15 nm
SHA20-01 20 nm
SHA25-01 25 nm
SHA30-01 30 nm
Combo-SHA-3 Combo Pack, any three (3) sizes from 10 nm to 30 nm
Available Options

Select the variant that best fits your experiment. Availability and lead time may vary by option.

  • Options: Particle Size (6 options): 10 nm, 15 nm, 20 nm, 25 nm, 30 nm, 5 nm; Combo Pack available | Volume (3 options): 1 mL, 3 x 1 mL, 5 mL
  • Lead time: varies by selected option; please contact us for current fulfillment timing.
  • Storage: Store at 2-8°C.
  • Shipping: ambient temperature shipment.
  • Upon receipt: inspect packaging; record lot number; allow product to reach appropriate working temperature per the product datasheet before use.
  • Sales terms and conditions: all sales are subject to BioHippo's standard Terms and Conditions.
Field Specification
Mfr No SHA05, SHA10, SHA15, SHA20, SHA25, SHA30, Combo-SHA-3
Concentration 5 mg/mL
Form liquid
Molecular Weight Varies
Product Type
  • Beads & Nanoparticles
  • Nanoparticles
  • Iron Oxide Nanoparticles
Relative Density 1.00 g/cm3
Shipping Ambient Temperature
Storage Store at 2-8°C.

Overview

These Amine Iron Oxide Nanoparticles are superparamagnetic particles with excellent colloidal stability and biocompatible coating for biomedical applications including: in-vivo magnetic resonance imaging (MRI), magnetic particles imaging (MPI), magnetic sensing for in-vitro diagnostics, small molecular drug delivery, immunotherapy, hyperthermia, adjuvant for vaccine, etc. These particles are nanosized (5-30 nm) iron oxide nanoparticles with amine groups. Oligonucleotides, antibodies, or other ligands with primary amine, carboxyl or thiol groups can be easily coupled to the nanoparticles. Activation through Sulfo-SMCC or glutaraldehyde is required. With excellent colloidal stability and unique surface coating, the amine magnetic nanoparticles exhibit high binding capacity and low non-specific binding of protein or nucleic acids.

These’s amine functionalized iron oxide nanoparticles are also available in an easy-to-use kit format to make it easier for researchers to conjugate antibodies, proteins, peptides or other biomolecules of their own choice to these iron oxide nanoparticles. The kit contains sufficient reagents & components for performing 5 conjugation reactions using 1.25 mg magnetic iron oxide nanoparticles per reaction. Briefly, the iron oxide nanoparticles are activated using Sulfo-SMCC (succinimidyl 4-(N-maleimidomethyl) cyclohexane-1-carboxylate) followed by conjugation to thiol groups that are present on the target protein/ligands.

Key Features

  • Narrow size distribution
  • High colloidal stability
  • Low non-specific binding
  • Easy conjugation
  • Easy purification with magnetic column developed by Ocean NanoTech

Applications

  • In-vivo magnetic resonance imaging (MRI)
  • Magnetic particles imaging (MPI),
  • Magnetic sensing for in-vitro diagnostics
  • Small molecular drug delivery
  • Immunotherapy
  • Hyperthermia
  • Adjuvant for vaccine

Physical & Chemical Properties

  • Zeta Potential: from -10 mV to +20 mV
  • pH: 6.0 - 8.0 at 25 °C (77 °F)
  • Water Solubility: Completely miscible
  • Chemical Stability: Stable under recommended storage conditions.
  • Incompatible Materials: Strong oxidizing agents
  • Appearance / Color: black

These are superparamagnetic iron oxide nanoparticles (5–30 nm, 5 mg/mL) with primary amine (–NH₂) surface groups. Coupling to carboxyl-bearing targets uses EDC activation of the target carboxyl; coupling to thiol-bearing targets uses crosslinkers such as Sulfo-SMCC or glutaraldehyde. This flexibility supports multiple bioconjugation strategies from a single bead format.

Two common approaches: (1) EDC-mediated carboxyl activation on the antibody to couple to the bead amine directly; (2) Sulfo-SMCC crosslinker — react Sulfo-SMCC with the bead amine to introduce maleimide groups, then react with a thiolated antibody or antibody reduced with TCEP to expose thiol groups. Approach 2 gives more stable, oriented conjugation.

Applications include in vivo MRI, magnetic particle imaging (MPI), magnetic sensing, drug delivery, immunotherapy, and vaccine adjuvant research, in addition to custom bioconjugation for magnetic immunoassay development.

Yes — Amine Iron Oxide Nanoparticles Conjugation Kits providing Sulfo-SMCC and all required coupling, quenching, and storage buffers are available separately for five complete conjugation reactions. See the Documents section for the protocol PDF.

Available in 5, 10, 15, 20, 25, and 30 nm. A combo pack containing three sizes is available for screening particle-size effects. All sizes share the same amine surface chemistry.

The following customization and add-on services are available for this product through the supplier. For inquiries and pricing, contact support@biohippo.com.

Customization Options

  • Custom Nanoparticle Synthesis: Iron oxide nanoparticles with customized particle sizes (nanometers to micrometers), narrow size distributions, surface coatings, and functional groups can be synthesized for specialized imaging, drug delivery, or sensing applications.
  • Custom Surface Modification: Deep understanding of surface chemistry allows custom modification of iron oxide nanoparticle surfaces for different applications — including custom PEG lengths, targeting ligands, or specific reactive groups.
  • Custom Conjugation Service: Pre-conjugated iron oxide nanoparticle–antibody, nanoparticle–protein, or nanoparticle–drug conjugates can be prepared using your supplied biomolecule. The supplier specializes in conjugation chemistry across iron oxide nanoparticles, quantum dots, magnetic beads, and latex beads.
  • Assay Development: Technical support for magnetic nanoparticle-based in vitro diagnostic assay development, including magnetic sensing assays and lateral flow platforms, is available.
  • Bulk & OEM Manufacturing: Bulk iron oxide nanoparticle supply and OEM manufacturing for diagnostic and therapeutic research device development are available.

To inquire about customization options, request a quote, or discuss OEM manufacturing, contact support@biohippo.com.

  1. Rezaei E et al. (2026). A deep dive into ferritin nanoparticle advancements: experimental and computational perspectives. Discov Nano. DOI: 10.1186/s11671-026-04577-8 PMID: 42018247
  2. Amaolo A et al. (2026). Breaking Through the Barrier: Nanoparticle-Driven MRI Strategies for Diagnosis and Therapy of Pancreatic Cancer. ACS Nanosci Au. DOI: 10.1021/acsnanoscienceau.5c00116 PMID: 42004273
  3. Fan Y et al. (2026). Bio-magnetic nanomedicine for targeted drug delivery of breast cancer: green synthesis, functional design, and translational challenges. Breast Cancer Res. DOI: 10.1186/s13058-026-02278-9 PMID: 42002783
  4. Morais B et al. (2026). Integrating green chemistry into SPION development: a theranostic study on prostate cell models. Nanoscale. DOI: 10.1039/d6nr00113k PMID: 41954586
  5. Dong J et al. (2026). Advancements in nanomaterials for the treatment and management of vascular surgeries: from drug delivery to biomedical implants. Front Bioeng Biotechnol. DOI: 10.3389/fbioe.2026.1788897 PMID: 41953561
  6. Galarza-Arévalo GE et al. (2026). Clinical Applications and Future Prospects of Metallic Nanoparticles in Diagnosis and Therapy. Int J Nanomedicine. DOI: 10.2147/IJN.S567931 PMID: 42023082

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