01 / What We Do

We engineer defect-driven metal oxides from the vacancy outward.

Taewan Materials designs TiO2-x and MOx-δ platforms by precisely controlling oxygen vacancies, transforming missing atoms into tunable electronic, catalytic, and electromagnetic functions.

  • OvOxygen-vacancy networks engineered under mild condition
  • Ti3+Defect states that tune charge, light, and dielectric response
  • MOx-δScalable oxide platforms for industrial surface functions
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02 / How We Do It

We restructure oxide lattices at low temperature, ambient pressure, in one-step.

Taewan Materials forms oxygen-vacancy-rich TiO2-x and MOx-δ structures through a mild one-step process, turning lattice restructuring into a controllable and scalable manufacturing route.

Low TMild thermal condition (T ≤ 150°C)
1 atmAmbient-pressure process
One‑stepDirect defect formation
Lattice TunedControlled restructuring
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03 / What We Make

We make a spectrum of TiO2-x materials, tuned by vacancy density.

By controlling oxygen vacancies, Taewan Materials transforms conventional TiO2 into engineered TiO2-x grades with distinct color, electronic behavior, and surface functionality.

Selected Grade

Grey TiO2-x

Phase
Grey defect-rich oxide
Vacancy
Moderate oxygen-vacancy density
Behavior
Visible defect states with controlled surface activity
Function
Intermediate oxide grade for surface-function tuning
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04 / Product

Order

Our product is supplied for technical evaluation and application development. For sample or kg-scale inquiries, contact Taewan Materials directly.

MaterialDefect-engineered TiO2-x
Sample / kg-scaleAvailable
order@taewan-ms.com
070-4195-2604
Order ContactTechnical samples and kg-scale material orders are handled directly through Taewan Materials.
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05 / Applications

Vacancies become performance.

Defect-engineered TiO2-x expands into special coatings, surfaces, energy systems, and environmental applications. Performance begins at the oxygen vacancy.

StealthRADAR / EM ABSORBING SURFACES
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