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الموضوع: The Importance of Conjugation

  1. #1
    عضو ذهبي الصورة الرمزية اسراء
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    Aug 2011
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    افتراضي The Importance of Conjugation

    A comparison of the absorption spectrum of 1-pentene, λmax = 178 nm, with that of isoprene (above) clearly demonstrates the importance of chromophore conjugation. Further evidence of this effect is shown below. The spectrum on the left illustrates that conjugation of double and triple bonds also shifts the absorption maximum to longer wavelengths. From the polyene spectra displayed in the center diagram, it is clear that each additional double bond in the conjugated pi-electron system shifts the absorption maximum about 30 nm in the same direction. Also, the molar absorptivity (ε) roughly doubles with each new conjugated double bond. Spectroscopists use the terms defined in the table on the right when describing shifts in absorption. Thus, extending conjugation generally results in bathochromic and hyperchromic shifts in absorption.
    The appearance of several absorption peaks or shoulders for a given chromophore is common for highly conjugated systems, and is often solvent dependent. This fine structure reflects not only the different conformations such systems may assume, but also electronic transitions between the different vibrational energy levels possible for each electronic state. Vibrational fine structure of this kind is most pronounced in vapor phase spectra, and is increasingly broadened and obscured in solution as the solvent is changed from hexane to methanol.
    Terminology for Absorption Shifts

    Nature of Shift
    Descriptive Term
    To Longer Wavelength Bathochromic
    To Shorter Wavelength Hypsochromic
    To Greater Absorbance Hyperchromic
    To Lower Absorbance Hypochromic


    To understand why conjugation should cause bathochromic shifts in the absorption maxima of chromophores, we need to look at the relative energy levels of the pi-orbitals. When two double bonds are conjugated, the four p-atomic orbitals combine to generate four pi-molecular orbitals (two are bonding and two are antibonding). This was described earlier in the section concerning diene chemistry. In a similar manner, the three double bonds of a conjugated triene create six pi-molecular orbitals, half bonding and half antibonding. The energetically most favorable π __> π* excitation occurs from the highest energy bonding pi-orbital (HOMO) to the lowest energy antibonding pi-orbital (LUMO).
    The following diagram illustrates this excitation for an isolated double bond (only two pi-orbitals) and, on clicking the diagram, for a conjugated diene and triene. In each case the HOMO is colored blue and the LUMO is colored magenta. Increased conjugation brings the HOMO and LUMO orbitals closer together. The energy (ΔE) required to effect the electron promotion is therefore less, and the wavelength that provides this energy is increased correspondingly (remember λ = h c/ΔE ).
    Examples of π __> π* Excitation
    Click on the Diagram to Advance


    Many other kinds of conjugated pi-electron systems act as chromophores and absorb light in the 200 to 800 nm region. These include unsaturated aldehydes and ketones and aromatic ring compounds. A few examples are displayed below. The spectrum of the unsaturated ketone (on the left) illustrates the advantage of a logarithmic display of molar absorptivity. The π __> π* absorption located at 242 nm is very strong, with an ε = 18,000. The weak n __> π* absorption near 300 nm has an ε = 100.
    Benzene exhibits very strong light absorption near 180 nm (ε > 65,000) , weaker absorption at 200 nm (ε = 8,000) and a group of much weaker bands at 254 nm (ε = 240). Only the last group of absorptions are completely displayed because of the 200 nm cut-off characteristic of most spectrophotometers. The added conjugation in naphthalene, anthracene and tetracene causes bathochromic shifts of these absorption bands, as displayed in the chart on the left below. All the absorptions do not shift by the same amount, so for anthracene (green shaded box) and tetracene (blue shaded box) the weak absorption is obscured by stronger bands that have experienced a greater red shift. As might be expected from their spectra, naphthalene and anthracene are colorless, but tetracene is orange.
    The spectrum of the bicyclic diene (above right) shows some vibrational fine structure, but in general is similar in appearance to that of isoprene, shown above. Closer inspection discloses that the absorption maximum of the more highly substituted diene has moved to a longer wavelength by about 15 nm. This "substituent effect" is general for dienes and trienes, and is even more pronounced for enone chromophores.
    A set of empirical rules for predicting the λmax of such chromophores has been developed.
    These rules may be viewed by Clicking Here.

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  2. #2
    مشرفة الاقسام الاكاديمية الصورة الرمزية تمارا احمد
    تاريخ التسجيل
    Jul 2011
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    افتراضي رد: The Importance of Conjugation

    Thanks a lot

    عضو في نادي ماركا الأكاديمي


  3. #3
    مراقب عام الصورة الرمزية Eiman
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    Jul 2011
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    افتراضي رد: The Importance of Conjugation

    شكرا اسراء
    من جد وجد ....... ومن سار على الدرب وصل

  4. #4
    عضو ذهبي الصورة الرمزية نداء محمد
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    Aug 2011
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    افتراضي رد: The Importance of Conjugation

    Thank you

    عضو في نادي ماركا الأكاديمي


  5. #5
    عضو مميز الصورة الرمزية قمر بلحاج
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    Jul 2012
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    افتراضي رد: The Importance of Conjugation

    جزاكم الله خيرا

    عضو في نادي ماركا الأكاديمي


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