Mesoporous materials have a remarkable interest due to their exceptional characteristics and favorable applications in various fields of technology. Mesoporous Titanium Dioxide is one of the most ...broadly studied materials owing to its tremendous applications. In this review, we recapitulate the substantial progress on the synthesis of mesoporous titania in term of its enhanced surface areas, particle size, as well as porosity. Due to its attractive properties along with inexpensive available chemicals for synthesis has made this nanomaterial rising star in various industrial technologies. Current applications, future aspects and challenges in this field are also emphasized and discussed.
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•This review recapitulate the substantial progress on the synthesis of mesoporous titania.•Due to the large band gap energy of anatase, it has great photoresponse properties.•Titania can utilize solar light freely and can be applied to degrade some organic contaminant.
Being the most active field in modern physics, Optical Physics has developed many new branches and interdisciplinary fields overlapping with various classical disciplines. This series summarizes the ...advancements of optical physics in the past twenty years in the following fields: High Field Laser Physics, Precision Laser Spectroscopy, Nonlinear Optics, Nanophotonics, Quantum Optics, Ultrafast Optics, Condensed Matter Optics, and Molecular Biophotonics.
Die enantiospezifische Kontrolle der chemischen Reaktionen mittels chiraler Medien, z.B. chiraler mesoporöser Materialien, ist eine große Herausforderung. Hier beschreiben wir eine neue und effektive ...Syntheseroute fur enantioselektive nanoporöse Kohlenstoffe aus chiralen ionischen Flussigkeiten (CIFs). CIFs aus Phenylalanin (CIF(Phe)) werden als Vorstufen fur die Karbonisierung von chiralen mesoporösen Kohlenstoffen verwendet. Wir wenden Zirkulardichroismus-Spektroskopie, isotherme Titrationskalorimetrie (ITK) und Chronoamperometrie an, um die chirale Natur der mesoporösen Kohlenstoffe zu zeigen. Die vorgestellte Herangehensweise ist von großer Bedeutung fur die Entwicklung neuartiger chiraler poröser Materialien im Bereich der enantioselektiven Chemie. Außerdem trägt sie wesentlich zu unserem Verständnis der Struktur und der Natur von chiralen nanoporösen Materialien und Oberflächen bei.