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About AnteoTech

Focusing on the global challenges of our time

At AnteoTech, we dedicate our resources to managing the surface properties of the smallest known particles to solve large problems. Point of care diagnosis of disease to speed up delivery of medical intervention and enabling efficient use of electricity via the Lithium Ion Battery are two ways AnteoTech are contributing to deliver global solutions.

Discover

We focus on collaboration, R&D capability and development.

  1. Collaboration

    Retaining and enhancing protein activity that may be compromised through irreversible chemical or structural modification

  2. R&D Capability

    Retaining and enhancing protein activity that may be compromised through irreversible chemical or structural modification

  3. Development

    Retaining and enhancing protein activity that may be compromised through irreversible chemical or structural modification

  4. Collaboration

    Retaining and enhancing protein activity that may be compromised through irreversible chemical or structural modification

  5. R&D Capability

    Retaining and enhancing protein activity that may be compromised through irreversible chemical or structural modification

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How does it work?

A single binding point would not be strong enough to bind a metal ion to a synthetic surface or a biomolecule to the metal ion.

AnteoBind technology overcomes this limitation by using polymeric metal ions that form multiple binding points with both the underlying surface and the biomolecule of interest, which creates stability and retain activity leading to greater reproducibility and improved performance, with AnteoBind activated particles remaining coated and stable for 12 months.

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How does it work?

Why choose AnteoTech Bioconjugation and Assay Development?

A single binding point would not be strong enough to bind a metal ion to a synthetic surface or a biomolecule to the metal ion.

AnteoBind technology overcomes this limitation by using polymeric metal ions that form multiple binding points with both the underlying surface and the biomolecule of interest, which creates stability and retain activity leading to greater reproducibility and improved performance, with AnteoBind activated particles remaining coated and stable for 12 months.

How does it work?

A single binding point would not be strong enough to bind a metal ion to a synthetic surface or a biomolecule to the metal ion.

AnteoBind technology overcomes this limitation by using polymeric metal ions that form multiple binding points with both the underlying surface and the biomolecule of interest, which creates stability and retain activity leading to greater reproducibility and improved performance, with AnteoBind activated particles remaining coated and stable for 12 months.

How does it work?

A single binding point would not be strong enough to bind a metal ion to a synthetic surface or a biomolecule to the metal ion.

AnteoBind technology overcomes this limitation by using polymeric metal ions that form multiple binding points with both the underlying surface and the biomolecule of interest, which creates stability and retain activity leading to greater reproducibility and improved performance, with AnteoBind activated particles remaining coated and stable for 12 months.

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To achieve growth, AnteoTech will focus on:

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AnteoTech life sciences capability 
addresses the following issues:

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At AnteoTech our goal is to enhance our way of life through particle surface management solutions.

Life Sciences

PoC & Diagnostic Solutions

At AnteoTech Life Science, we identified that there was an unmet need in the point-of-care (POC) and diagnostics industry for effective bioconjugation and coating methods for macromolecules in various applications.

Energy

Revolutionising Battery Design

AnteoTech Energy offers a revolutionary change in electrode design to the battery industry to meet ever-increasing performance demands for electric vehicles, energy storage systems and consumer electronics.

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Newsroom

The latest news and updates.

09 December, 2024

US$0.185m Order from Serum Institute of India

18 November, 2024

AusBiz Interview

29 October, 2024

$4m ARENA Grant Project to deliver Generation 2 Ultra High Silicon Anode

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Life Sciences Resources

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  • Papers & Publications
  • Papers & Publications

Development and Validation of a Respiratory Syncytial Virus Multiplex Immunoassay

  • Papers & Publications
  • Papers & Publications

Multiplexed Bead-based Assay for the Simultaneous Quantification of Human Serum IgG Antibodies to Tetanus, Diphtheria, Pertussis Toxin, Filamentous Hemagglutinin, and Pertactin

  • Papers & Publications
  • Papers & Publications

Quantitative Point of Care Tests for Timely Diagnosis of Early-Onset Preeclampsia with High Sensitivity and Specificity

  • Papers & Publications
  • Papers & Publications

Assessment of Immunogenicity and Efficacy of CV0501 mRNA-Based Omicron COVID-19 Vaccination in Small Animal Models

  • Papers & Publications
  • Papers & Publications

Impaired Thymic AIRE Expression Underlies Autoantibodies Against Type I IFNs in Humans with Inborn Errors of the Alternative NF-kB Pathway

  • Papers & Publications
  • Papers & Publications

Peptide-based Direct Electrochemical Detection of Receptor Binding Domains of SARS-CoV-2 Spike Protein in Pristine Samples

  • Papers & Publications
  • Papers & Publications

Development and Validation of Bead-based Assay Quantifying Tetanus, Diphtheria, Pertussis Toxin, Filamentous Haemagglutinin and Pertactin Specific IgG in Human Serum

  • Papers & Publications
  • Papers & Publications

Longitudinal Cellular and Humoral Immune Responses after Triple BNT162b2 and Fourth Full-dose mRNA-1273 Vaccination in Haemodialysis Patients

  • Papers & Publications
  • Papers & Publications

COVID‑19 Patient Serum Less Potently Inhibits ACE2‑RBD Binding for Various SARS‑CoV‑2 RBD Mutants

  • Papers & Publications
  • Papers & Publications

Diminishing Immune Responses against Variants of Concern in Dialysis Patients 4 Months after SARS-CoV-2 mRNA Vaccination

  • Papers & Publications
  • Papers & Publications

A Simplified and Robust Activation Procedure of Glass Surfaces for Printing Proteins and Subcellular Micropatterning Experiments

  • Papers & Publications
  • Papers & Publications

Development and In-Depth Characterization of Bacteria Repellent and Bacteria Adhesive Antibody-Coated Surfaces Using Optical Waveguide Biosensing

  • Papers & Publications
  • Papers & Publications

Penetration of the SARS-CoV-2 Spike Protein across the Blood–Brain Barrier, as Revealed by a Combination of a Human Cell Culture Model System and Optical Biosensing

  • Papers & Publications
  • Papers & Publications

Robust and Durable Serological Response Following Pediatric SARS-CoV-2 Infection

  • Papers & Publications
  • Papers & Publications

X‑Linked TLR7 Deficiency Underlies Critical COVID‑19 Pneumonia in a Male Patient with Ataxia‑Telangiectasia

  • Papers & Publications
  • Papers & Publications

Cellular and Humoral Immunogenicity of a SARS-CoV-2 mRNA Vaccine in Patients on Haemodialysis

  • Papers & Publications
  • Papers & Publications

Immune Response to SARS-CoV-2 Variants of Concern in Vaccinated Individuals

  • Papers & Publications
  • Papers & Publications

Initial Trail Results of a Magnetic Biosensor for the Rapid Detection of Porcine Reproductive and Respiratory Virus (PRRSV) Infection

  • Papers & Publications
  • Papers & Publications

A Fast and Simple Contact Printing Approach to Generate 2D Protein Nanopatterns

  • Papers & Publications
  • Papers & Publications

Development of a Bead-Based Multiplex Assay for the Analysis of the Serological Response against the Six Pathogens HAV, HBV, HCV, CMV, T. gondii, and H. pylori

  • Papers & Publications
  • Papers & Publications

Validation of HAV Biomarker 2A for Differential Diagnostic of Hepatitis A Infected and Vaccinated Individuals using Multiplex Serology

  • Papers & Publications
  • Papers & Publications

Development of a Multiplex Panel of Biomarkers to Assess Energy Metabolism in Cancer

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