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Network Covalent Solids02:18

Network Covalent Solids

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Network covalent solids contain a three-dimensional network of covalently bonded atoms as found in the crystal structures of nonmetals like diamond, graphite, silicon, and some covalent compounds, such as silicon dioxide (sand) and silicon carbide (carborundum, the abrasive on sandpaper). Many minerals have networks of covalent bonds.
To break or to melt a covalent network solid, covalent bonds must be broken. Because covalent bonds are relatively strong, covalent network solids are typically...
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Noncovalent Attractions in Biomolecules02:35

Noncovalent Attractions in Biomolecules

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Crystal Field Theory - Octahedral Complexes02:58

Crystal Field Theory - Octahedral Complexes

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Crystal Field Theory
To explain the observed behavior of transition metal complexes (such as colors), a model involving electrostatic interactions between the electrons from the ligands and the electrons in the unhybridized d orbitals of the central metal atom has been developed. This electrostatic model is crystal field theory (CFT). It helps to understand, interpret, and predict the colors, magnetic behavior, and some structures of coordination compounds of transition metals.
CFT focuses on...
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UV–Vis Spectroscopy: Molecular Electronic Transitions01:16

UV–Vis Spectroscopy: Molecular Electronic Transitions

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In Ultraviolet–Visible (UV–Vis) spectroscopy, the absorption of electromagnetic radiation is used to probe the electronic structure of molecules. This technique provides insights into molecular electronic transitions, particularly the movement of electrons between different molecular orbitals. Radiation is absorbed if the energy of the electromagnetic radiation passing through the molecule is precisely equal to the energy difference between the excited and ground states. During this...
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Crystal Field Theory - Tetrahedral and Square Planar Complexes02:46

Crystal Field Theory - Tetrahedral and Square Planar Complexes

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Tetrahedral Complexes
Crystal field theory (CFT) is applicable to molecules in geometries other than octahedral. In octahedral complexes, the lobes of the dx2−y2 and dz2 orbitals point directly at the ligands. For tetrahedral complexes, the d orbitals remain in place, but with only four ligands located between the axes. None of the orbitals points directly at the tetrahedral ligands. However, the dx2−y2 and dz2 orbitals (along the Cartesian axes) overlap with the ligands less than the dxy,...
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IR Absorption Frequency: Delocalization01:04

IR Absorption Frequency: Delocalization

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Electron delocalization refers to the distribution of electrons across multiple atoms within a molecule rather than being confined to a single atom or bond. This phenomenon is common in systems with conjugated bonds—structures where alternating single and double bonds allow π-electrons to move freely across the network. The movement of electrons stabilizes the molecule and can affect various chemical properties, including vibrational frequencies observed in IR spectroscopy.
In IR...
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Related Experiment Video

Updated: Aug 12, 2025

Microfluidic-based Synthesis of Covalent Organic Frameworks COFs: A Tool for Continuous Production of COF Fibers and Direct Printing on a Surface
08:42

Microfluidic-based Synthesis of Covalent Organic Frameworks COFs: A Tool for Continuous Production of COF Fibers and Direct Printing on a Surface

Published on: July 10, 2017

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Covalent Organic Frameworks as Emerging Nonlinear Optical Materials.

Satyapriya Nath1,2, Adithyan Puthukkudi1,2, Jeebanjyoti Mohapatra1,2

  • 1School of Chemical Sciences, National Institute of Science Education and Research (NISER) Bhubaneswar, Jatni, Khurda, Odisha, 752050, India.

Angewandte Chemie (International Ed. in English)
|February 2, 2023
PubMed
Summary
This summary is machine-generated.

Covalent organic frameworks (COFs) show promise as advanced nonlinear optical (NLO) materials, offering superior stability and design flexibility compared to traditional options. Their unique structure enables tailored NLO properties for diverse applications.

Keywords:
Covalent Organic FrameworksNonlinear OpticsOptical LimitingSecond Harmonic GenerationTwo-Photon Absorption

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A Technical Guide for Performing Spectroscopic Measurements on Metal-Organic Frameworks
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A Technical Guide for Performing Spectroscopic Measurements on Metal-Organic Frameworks

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Area of Science:

  • Materials Science
  • Organic Chemistry
  • Photonics

Background:

  • Covalent organic frameworks (COFs) are a diverse class of porous materials.
  • COFs are increasingly explored for nonlinear optical (NLO) applications.
  • Existing NLO materials have limitations in stability and tunability.

Purpose of the Study:

  • To review the fundamentals of NLO phenomena and measurement techniques.
  • To critically analyze design principles for creating NLO-active COFs.
  • To discuss the potential applications and future outlook of COFs in NLO.

Main Methods:

  • Literature review and critical analysis of existing research.
  • Discussion of design strategies for NLO-active COFs.
  • Exploration of COF synthesis and characterization relevant to NLO properties.

Main Results:

  • COFs offer advantages over traditional NLO materials, including enhanced mechanical strength, thermochemical stability, and extended conjugation.
  • Specific design principles for achieving NLO responses in COFs are outlined.
  • Potential applications in areas like optical switching and frequency conversion are highlighted.

Conclusions:

  • COFs represent a promising platform for developing next-generation NLO materials.
  • Further research into COF design and characterization is crucial for realizing their full NLO potential.
  • Challenges remain in optimizing COF synthesis and NLO performance for practical applications.