XRD pattern of (A) TiO2–12F, (B) TiO2–24F, (C) TiO2–36F, and (D
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Enlarged version XRD pattern of (110) plane (A) TiO2-48 and (B) 1NTFA
PDF) Green sol–gel route for selective growth of 1D rutile N–TiO2: a highly active photocatalyst for H2 generation and environmental remediation under natural sunlight
PDF) Green sol–gel route for selective growth of 1D rutile N–TiO2: a highly active photocatalyst for H2 generation and environmental remediation under natural sunlight
R. SONAWANE, Scientist, PhD, Nanocrystalline materials / Glass group
PDF) Green sol–gel route for selective growth of 1D rutile N–TiO2: a highly active photocatalyst for H2 generation and environmental remediation under natural sunlight
PDF) Green sol–gel route for selective growth of 1D rutile N–TiO 2 : a highly active photocatalyst for H 2 generation and environmental remediation under natural sunlight
XRD pattern of (A) TiO2-48, (B) 1NTFA, (C) 3NTFA, (D) 5NTFA, and (E) 10NTFA
PDF) Green sol–gel route for selective growth of 1D rutile N–TiO2: a highly active photocatalyst for H2 generation and environmental remediation under natural sunlight
FESEM micrographs of (a and b) TiO2–24F, (c and d) TiO2–36F, and (e and
a) UV-visible absorption spectra of MO irradiated for different time
Supriya KHORE, Centre for Materials for Electronics Technology, Pune, C-MET, Chemistry
Photoluminescence spectra of (A) TiO2-48 and (B) 1NTFA
Sanjay K. Apte's research works Centre for Materials for Electronics Technology, Pune (C-MET) and other places
PDF) Green sol–gel route for selective growth of 1D rutile N–TiO2: a highly active photocatalyst for H2 generation and environmental remediation under natural sunlight
XRD pattern of (A) TiO2–12F, (B) TiO2–24F, (C) TiO2–36F, and (D) TiO2–48F