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Molecular Shapes01:18

Molecular Shapes

Molecules have characteristic shapes that are crucial for their function. The arrangement of various electron groups around the central atom dictates their molecular geometry. Electron pairs in the valence shell of a central atom will adopt an arrangement that minimizes repulsions between the electron pairs by maximizing the distance between them. The valence electrons form either bonding pairs, located primarily between bonded atoms, or lone pairs.Two regions of electron density in a diatomic...
Molecular Models02:00

Molecular Models

Physical models representing molecular architectures of chemical compounds play essential roles in understanding chemistry. The use of molecular models makes it easier to visualize the structures and shapes of atoms and molecules.
Newman Projections02:06

Newman Projections

Different notations are used to represent the three-dimensional structure of molecules on two-dimensional surfaces. One of the most commonly used representations is the dash-wedge formula. The dashed wedges, solid wedges, and the plane lines indicate the groups situated behind the plane, coming out of the plane, and in the plane, respectively.
The organic molecules rotate across the single bonds leading to numerous temporary three-dimensional structures of varying energy known as conformers.
Structure of Conjugated Dienes01:16

Structure of Conjugated Dienes

Introduction
Conjugated dienes are compounds characterized by the presence of alternating double and single bonds. In a conjugated system like 1,3-butadiene, the unhybridized 2p orbital on each carbon overlaps continuously, allowing the π electrons to be delocalized across the entire molecule. In contrast, this type of overlap does not occur in cumulated and isolated dienes, such as 2,3-pentadiene and 1,4-pentadiene, respectively. Instead, the π electrons remain localized between the double...
Structure of Benzene: Molecular Orbital Model01:18

Structure of Benzene: Molecular Orbital Model

According to the molecular orbital (MO) model, benzene has a planar structure with a regular hexagon of six sp2 hybridized carbons. As shown in Figure 1, each carbon is bonded to three other atoms with C–C–C and H–C–C bond angles of 120°. The C–H bond length is 109 pm, and the C–C bond length is 139 pm which is midway between the single bond length of sp3 hybridized carbons (154 pm) and sp2 hybridized carbons (133 pm).
Space Trusses01:25

Space Trusses

A space truss is a three-dimensional counterpart of a planar truss. These structures consist of members connected at their ends, often utilizing ball-and-socket joints to create a stable and versatile framework. The space truss is widely used in various construction projects due to its adaptability and capacity to withstand complex loads.
At the core of a space truss lies the fundamental unit known as the tetrahedron. This structure is composed of six members that form a three-dimensional shape...

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Related Experiment Video

Updated: Jul 9, 2026

Self-assembly of Complex Two-dimensional Shapes from Single-stranded DNA Tiles
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Mesostructured gamma-Al(2)O(3) with a lathlike framework morphology.

Zhaorong Zhang1, Thomas J Pinnavaia

  • 1Department of Chemistry and Center for Fundamental Material Research, Michigan State University, East Lansing, Michigan 48824-1322, USA.

Journal of the American Chemical Society
|October 10, 2002
PubMed
Summary

Researchers developed a novel three-step method to create mesoporous alumina with crystalline gamma-Al2O3 nanoparticle walls. This process yields materials with high surface area for catalytic applications.

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Area of Science:

  • Materials Science
  • Nanotechnology
  • Inorganic Chemistry

Background:

  • Mesoporous alumina materials are crucial for catalysis and materials science.
  • Controlling the crystalline structure and pore morphology of alumina is challenging.
  • Existing methods often yield amorphous or less ordered structures.

Purpose of the Study:

  • To report a novel three-step assembly pathway for mesoporous alumina.
  • To achieve framework pore walls composed of crystalline gamma-Al2O3 nanoparticles.
  • To investigate the influence of synthesis conditions on pore structure and properties.

Main Methods:

  • Supramolecular assembly using poly(ethylene oxide) surfactants as porogens.
  • Hydrolysis of aluminum precursors (Al13 oligocations and hydrated cations).
  • Two-step hydrolysis and a final thermal treatment to induce crystallization.

Main Results:

  • A mesostructured alumina with a wormhole framework and amorphous walls was initially formed.
  • Subsequent steps yielded a boehmite mesophase (MSU-S/B) with lathlike nanoparticle walls.
  • Final thermal conversion produced crystalline gamma-Al2O3 pore walls (MSU-gamma) with retained lathlike morphology.
  • Chloride ions disorder pore structure; nitrate precursors yield ordered MSU-gamma with narrow pore size distributions.
  • High surface areas (300-350 m²/g) and pore volumes (0.45-0.75 cm³/g) were achieved.

Conclusions:

  • A viable three-step pathway enables the synthesis of mesoporous gamma-Al2O3 with crystalline nanoparticle walls.
  • The choice of aluminum precursor significantly impacts the order and pore characteristics of the final material.
  • The resulting mesoporous gamma-Al2O3 offers potential for advanced catalytic and materials applications.