Chem 524 Lecture Notes (Section 18)

Chem 524 Lecture Notes (Section 18)

XV. Circular Dichroism

A. Differential absorption of left and right circular polarized light by molecular transition

1. Measure polarization modulated transmission/need ratio to get transmission absorption

I_mod = I₀/2 (10^-AL — 10^-AR)

I_trans = Io/2 (10^-AL + 10^-AR) = K _{tan h} (1.15 DA)

DA = A_L - A_R

2. Signals are small compared to absorption

electronic: DA/A ~ 10³; vibration: DA/A ~ 10^-4 ~ 10^-5

need careful demodulation (lock-in typical)

3. Polarization created by linear polarizer

uv — crystal prism — IR — grid

and modulator — old electrooptic (KDP) / now — photoelastic — stress induce retard

optics, modulator materials: uv — qtz or CaF₂; IR — CaF₂ or ZnSe

4. Detector: PMT — UV, MCT (or like) — IR

B. UV Instruments

1. JASCO — market dominate — prism monochromator

good for uv penetration also polarize (linear)

2. AVIV — similar

3. OLIS — different — two chemical operation (beams from Rochan — out of phase at modulation)

4. Others — especially for stop-flow (dynamics) use grating optics — uv problem

C. IR instruments

Most home made until recently

a. Dispersive — TAK lab

advantage low resolution, single bands, bio syst

b. FT based — many labs

advantage multiplex (multiple trans), high res.

c. New — Bomem Biotools — full commercial design --FT — for mid IR — very good S/N

-- DSP-based — eliminate lockin -- full digitize time dependent signal

D. Applications

1. Molecular stereochemistry/absolute configuration

2. Chiral detector in separations

3. Biological polymer — conformational analysis (proteins, peptides, nucleic acid — secondary structure)

4. Protein folding — stop flow

5. Time dependent possible — detect elipticity with ns laser -- photolysis (chromophore)