Crystal lanthanum titanate (LaTiO₃) is a functional inorganic oxide material with a perovskite-type structure. Due to its unique crystal structure and excellent physical properties, it has gained wide attention in the field of thin film materials. Beyond its superior conductivity and dielectric properties, the material exhibits exceptional thermal stability and chemical inertness. These characteristics ensure structural and functional integrity under extreme conditions, including high temperatures and ultra-high vacuum (UHV) environments. Sputtered or evaporated LaTiO₃ films exhibit high uniformity and structural density. These characteristics effectively optimize the performance metrics of electronic devices and advanced optical coatings, providing reliable material support for high-end applications.

Outstanding Characteristics of Crystal Lanthanum Titanate

• High Purity and Low Impurity

  LaTiO₃ evaporation materials typically have a purity of over 99.99%, ensuring excellent consistency and reliability of films in electronic and optical applications.

• Excellent Dielectric Properties

  Its perovskite structure gives the material a high dielectric constant and low dielectric loss, making it suitable as a functional layer in capacitors and microelectronic devices.

• Strong Thermal Stability

  It maintains a relatively stable crystal structure and physical properties even in high-temperature environments, making it suitable for high-temperature processes or long-term operation of devices.

• Superior Optical Performance

  LaTiO3 films exhibit good transmittance and refractive index control in the visible and near-infrared bands, making them suitable for precision optical films.

• Good Chemical Stability

  It is resistant to acid and alkali corrosion and is not easily reactive with other materials, ensuring the long-term stability of the films in complex environments.

Wide Applications of Crystal Lanthanum Titanate

1. Electronic Device Manufacturing

   LaTiO₃ films are commonly used in high dielectric constant capacitors, gate dielectrics for field-effect transistors, etc., effectively enhancing the insulation and reliability of electronic components, aiding the miniaturization and high performance of integrated circuits.

2. Optical Device Manufacturing

   Its high refractive index and excellent light transmission make it suitable for use in optical filters, laser devices, and optical interference films, enabling efficient control and transmission of optical signals.

3. Photovoltaic Industry

   In solar cell structures, LaTiO3 as a functional thin film can improve charge transport efficiency, reduce energy loss, and thus enhance the overall photoelectric conversion efficiency of the cell.

4. Sensors and Energy Storage

   Due to its stable electrical and optical properties,LaTiO3 films are commonly used in gas sensors, optoelectronic sensors, and electrochemical energy storage devices, broadening its application prospects in intelligent sensing and clean energy.