JCE 2005 (82) 1360A [Sep] Colors in Liquid Crystals


	\| Subscriptions \| Software Orders \| Support \| Contributors \| Advertisers \|

JCE Print

Current Issue
Previous Issues
Supplements
Search JCE Index

JCE Digital Library

DigiDemos
QBank
SymMath
WebWare

JCE Software

Latest Releases
Software & Video
Downloads
Support

Only@JCE Online

JCE Online Store
JCE HS CLIC
JCE Discussion Forums

Biographical Snapshots
ChemEd Resource Shelf
Featured Molecules
Hal's Picks
Project Chemlab
Reviewed WWW Sites
"Web-Ed" Articles

About JCE

Features
Publications
Operations
Outreach
Contact Us

Home > JCE Print > Journal of Chemical Education > Issues > 2005 > September >

In the Laboratory

JCE Classroom Activity

Colors in Liquid Crystals

George Lisensky and Elizabeth Boatman
Department of Chemistry, Beloit College, Beloit, WI 53511-5595

September 2005
Vol. 82 No. 9
p. 1360A

Table of Contents
Supplements in This Issue
Previous Article
Next Article

Full Text (PDF) | Supplement

Abstract

Liquid crystals have a phase in between liquid and solid: the molecules can flow and drip but remain somewhat organized. The cholesteric liquid crystals prepared in this Activity use mixtures of molecules related to cholesterol that align in layers. Stacks of layers are rotated with respect to one another similar to DNA, spiral staircases, or screw threads. The rotation between layers increases with temperature. A color will be reflected when the pitch, the distance between layers that have the same orientation, is approximately equal to the colors wavelength of light. This change in pitch causes the color changes we see when we apply pressure to or heat or cool cholesteric liquid crystals. This Activity is suitable for exploring relationships between color, wavelength, reflection, and transmission and illustrates how temperature changes the liquid crystal's Bragg reflection wavelength. This Activity can also be used to explore the relationship between melting point and crystal packing. Because one component contains a long chain cis-alkene connected to the cholesterol molecule, packing efficiency and melting point increase as the relative amount of this component within the mixture is decreased.

Supplement

Structure of cholesteryl oleyl carbonate.

More Information
Citation	Lisensky, George; Boatman, Elizabeth. J. Chem. Educ. 2005 82 1360A.
Keywords	Fatty Acids; First-Year Undergraduate / General; Hands-On Learning / Manipulatives; High School / Introductory Chemistry; Nanotechnology; Phases / Phase Transitions / Diagrams; Physical Chemistry; Public Understanding / Outreach; Spectroscopy
History	Created: Last Updated:	August 2, 2005 August 10, 2005


<< Previous Article	Table of Contents	Next Article >>

Home > JCE Print > Journal of Chemical Education > Issues > 2005 > September > Page 1360A

Subscriptions

Subscription Info
Order Forms

JCE HS CLIC

Our Secondary School editors work hard to distill all the JCE materials to produce a fraction of particular interest to high school teachers. We call it CLIC.

JCE HS CLIC

Contributions Welcome

JCE welcomes your submission

Contributors' Corner

Advertisers

In recent years we have worked hard to better match our advertisers with our readers. When shopping for chemistry education materials, visit our advertisers' WWW sites first.

Recent Advertisers

Be An Ambassador

Take JCE along on your outreach missions. Copies of the Journal, guest access to JCE Online, our publications catalog, and more are available for your participants.

Outreach with JCE


Comments to jceonline@chem.wisc.edu	Copyright © Division of Chemical Education, Inc., American Chemical Society. All rights reserved.