The correctness of the results is confirmed by inductively coupled plasma mass spectrometry. The accuracy of analyte determination reaches 1–4% (rel.). The optimal atomization temperatures for determining Ag and Au (for nanomaterial based on indium oxide), Au (for nanomaterial based on zinc oxide), In, and Zn are 1800, 2200, 2100, 2200, and 1500☌, respectively. The optimal pyrolysis temperatures for determining Ag and Au (for both oxides), In, and Zn are 1000, 1600, 1200, and 900☌, respectively. Optimal conditions of pyrolysis and atomization for sequential multielement analysis by the ETAAS method are determined. The matrix of the synthesized nanostructured materials is the corresponding oxide with possible oxygen deficiency due to the temperature conditions of the synthesis (300–700☌), and the content of additives (Ag, Au) is varied from 1 to 3 wt %. The study is aimed at the development of a methodical approach to the multielement determination of catalytic dopants (Ag, Au) and matrix elements in nanostructured tin and indium oxides using the method of high resolution atomic absorption spectrometry with electrothermal atomization (ETAAS) and continuous spectral source. Control of the material composition plays an important role in determining the dependence between the dopant content and functional properties of the materials.
For example, the specificity of the chemical properties of ZnO and In 2O 3 for the determination of toxic gases is achieved by immobilizing Au, Ag, etc., nanoparticles on their surface.
Indium - Indium x1 + Chromatic Metal x1 → Indium x2 ( "Chromatic Expansion", 0.36 sec./unit output).Chromatic Metal - Pure Ferrite x1 + Indium x1 → Chromatic Metal x4 ( "Chromatic Metal Fusion", 0.9 sec./unit output).Chromatic Metal - Indium x2 → Chromatic Metal x4 ( "Extract Chromatic Material", 0.9 sec./unit output).Chromatic Metal - Gold x1 + Silver x1 + Indium x1 → Chromatic Metal x30 ( "Chromatic Stellar Fusion", 0.6 sec./unit output).Indium is used as an ingredient for refining the following products using a Refiner: Temporal Warp Computer - Warp Hypercore x1 + Magnetic Resonator x2 + Indium x250 → Temporal Warp Computer.Reality De-threader - Indium x250 + Magnetic Resonator x1 + Antimatter Housing 圆 → Reality De-threader.Modified Quanta - Novae Reclaiment x1 + Indium x100 → Modified Quanta.Albumen Pearl Orb - Indium 圆0 + Paraffinium x20 → Albumen Pearl Orb.Indium is used as an ingredient for crafting the following products: Repeat steps 2-3, creating 8 Indium for every 6 Indium started with.Ĭonvert 1/3 of your Indium to Chromatic Metal, then combine with remaining 2/3rds of Indium to make 33% more.Refine x4 Indium and x4 Chromatic Metal to create x8 Indium.Refine x2 Indium to create x4 Chromatic Metal.Once the player has Medium Refiner/ Large Refiner, they can use it to produce limitless Indium:
Indium nms update#
NOTE: prior to Synthesis update the Indium output was twice as high. Indium x1 + Chromatic Metal x1 → Indium x2 ( "Chromatic Expansion", 0.36 sec./unit output).Indium can be refined using a Refiner with the following ingredients: It can be found on planets orbiting blue stars. Indium is found on planets orbiting blue stars, and can be placed in a Refiner to create purified Chromatic Metal for use in the manufacture of advanced technologies. Such stellar material ends up forming deposits in the crust of local planets. A chromatic metal, generated by fusion in the heart of a star.