Santa Barbara Amorphous-15

Template:Short description

Template:Copy edit

SBA-15, an acronym for Santa Barbara Amorphous-15, is a silica-based ordered mesoporous material that was first synthesized by researchers at the university of California Santa Barbra in 1998.^[1] This material proved important for scientists in various fields such as material sciences,^[2] drug delivery,^[3] catalysis,^[4] fuel cells^[5] and many other due to its desirable properties and ease of production.

The procedure is a typical Liquid-Crystal templating that consists of three steps:

1. Solution preparation — Pluronic P123 is dissolved in an acidic solution of water at specific molar ratios^[6] and the silica precursor typically TEOS or TMOS (sometimes EGMS^[7]) is added and mixed in for some time.
2. Hydrothermal treatment — The solution is sealed in a container and subjected to a temperature T1 for about 24 hours and then a higher temp T2 for 48 hours.
3. Washing and calcination — The gel obtained from the previous step is washed with water and ethanol under centrifuging, and finally calcinated at about 550 °C for 6 hours.

The interest in SBA-15 comes from the fact that its mostly mesoporous – meaning the pores are in the range of 2 nm to 50 nm according to the IUPAC definition^[8] and the fact that these pores have a well defined structure that is cylindrical shape in hexagonal ordering with their relatively thick pore walls which gives thermal stability.^[9]

The sorption isotherms of these materials, demonstrate typical hysteric behavior, which is still under discussion for its causes.^[2]

The transmission electron microscopy of the sample shows the cylindrical pores but also highlights then fact that the pores of this material exhibit geometric deformations.

The small-angle X-ray scattering pattern shows typical Bragg peaks to the hexagonal structure of the material. The peak positions, is directly related to the lattice parameter.

${\displaystyle q_{hk}=\frac{4\pi }{a\sqrt{3}}\sqrt{h^2+k^2+hk}}$

where h and k are the miller indices.

• 
  TEM of a typical SBA-15 sample^[10]
• 
  Demonstration of the hexagonal structure of SBA-15.
• 
  Small angle x-ray scattering pattern of a SBA-15 sample(data from Haidar et al.)^[10]
• 
  Typical isotherm SBA-15 sample, data from Haidar et al.^[10]

Template:Reflist