Advanced TiO2-x Materials

Surface oxygen vacancies, engineered as a platform.

Taewan Materials Co., Ltd. is a startup company focused on synthesizing TiO2-x, often referred to as Black TiO2-x, with uniformly formed surface oxygen vacancies for high-value industrial applications.

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Material Focus

TiO2-x

A defect-engineered material system built around controllable surface oxygen vacancies rather than incidental surface variation.

01 P25 / Anatase / Rutile

02 Surface Oxygen Vacancy Control

03 White to Brown to Blue to Black

Company

White TiO2 begins as many fragments and resolves into one nanoparticle.

Different geometric precursor particles converge, condense, and merge into a single white TiO2 nanoparticle that anchors the rest of the material story.

Geometric Convergence

Small square, triangular, and rod-like fragments gather from the outer field and move toward one center of formation.

Single White Structure

The converged fragments produce one spherical white nanoparticle based on P25, anatase, and rutile starting structures.

Formation First

The interaction keeps the assembly stage distinct so the material logic reads clearly before vacancy engineering begins.

Technology

Surface oxygen vacancies emerge on an already formed white particle.

Oxygen vacancy formation is represented as a surface event, not as a replacement of the particle itself, preserving the engineering sequence from structure to defect.

Specialty

Uniform surface oxygen vacancy engineering

Vacancy sites are concentrated at the particle surface, making the defect language of the background consistent with the technology story.

Approach

Formation and defect are separated

The site presents structure formation first, then vacancy creation, so the transition into TiO2-x is easier to understand.

Applications

Vacancy-driven color shifting leads from white TiO2 to black TiO2-x.

By oxygen vacancy formation, the particle system shifts from white to brown to blue and finally to black, forming the platform state for application.

01

Anti-fouling

Material opportunities for surfaces that must resist contamination, deposition, and long-term performance decline.

02

Stealth

Materials pathways relevant to absorption control and specialized defense-oriented performance requirements.

03

Battery

TiO2-x-based development for energy storage and electrochemical performance opportunities.

04

CCUS

Carbon capture, utilization, and storage pathways supported by active advanced material design.

Company Facts

Final black particles open into application architectures.

In the closing sequence, the final black particle state transforms into visual application fields for anti-fouling, stealth, battery, and CCUS.

Company Name 주식회사 태완첨단소재

English Name Taewan Materials Co., Ltd.

CEO 박현수

Business Registration No. 651-81-03600

Focus TiO2-x / Black TiO2-x