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For the textbook, chapter, and section you specified we found
2 Molecular Structures
10 Journal Articles
1 Other Resources
Molecular Structures: 2 results
D-amphetamine C9H13N

3D Structure

Link to PubChem

Amines / Ammonium Compounds |
Drugs / Pharmaceuticals |
Aromatic Compounds |
Acids / Bases

diazepam C16H13ClN2O

3D Structure

Link to PubChem

Heterocycles |
Drugs / Pharmaceuticals |
Amides |
Aromatic Compounds |
Acids / Bases

Journal Articles: First 3 results.
Pedagogies:
Using Laboratory Chemicals To Imitate Illicit Drugs in a Forensic Chemistry Activity  Shawn Hasan, Deborah Bromfield-Lee, Maria T. Oliver-Hoyo, and Jose A. Cintron-Maldonado
This forensic chemistry activity utilizes forensic procedures (chemical spot tests and thin-layer chromatography) on laboratory chemicals that mimic actual street drugs to produce screening results similar to those for controlled substances.
Hasan, Shawn; Bromfield-Lee, Deborah; Oliver-Hoyo, Maria T.; Cintron-Maldonado, Jose A. J. Chem. Educ. 2008, 85, 813.
Applications of Chemistry |
Drugs / Pharmaceuticals |
Forensic Chemistry |
Thin Layer Chromatography
Presumptive and Confirmatory Drug Tests  Craig Anderson
Tests for illegal drugs were performed on unknowns obtained from over-the-counter cold medicines. Substances that tested positive for the qualitative Marquis color test were found to be false positives for illegal substances, while scopolamine hydrochloride shows a false positive for cocaine hydrochloride with the cobalt thiocyanate reagent.
Anderson, Craig. J. Chem. Educ. 2005, 82, 1809.
Drugs / Pharmaceuticals |
Qualitative Analysis |
Acids / Bases |
Gas Chromatography |
IR Spectroscopy |
Mass Spectrometry
Drugs and the Human Body: With Implications for Society, 6th Edition
   by Ken Liska
  David J. A. Schedler
Facts about drug sources, history, action in the body, side effects, interactions, tolerance, abuse potential, dosage, dependency, delivery systems, and alternatives to drug use.
Schedler, David J. A. J. Chem. Educ. 2002, 79, 805.
Drugs / Pharmaceuticals |
Medicinal Chemistry |
Applications of Chemistry
View all 10 articles
Other Resources: 1 results
Molecular Models of Real and Mock Illicit Drugs from a Forensic Chemistry Activity  William F. Coleman
The Featured Molecules for this month come from the paper by Shawn Hasan, Deborah Bromfield-Lee, Maria T. Oliver-Hoyo, and Jose A. Cintron-Maldonado (1). The authors describe a forensic chemistry exercise in which model compounds are used to simulate the behavior of various drugs in a series of chemical tests. Structures of a number of the chemicals used in the experiment, and several of the drugs they are serving as proxy for, have been added to the molecule collection. Other substances used in the experiment are already part of the collection, including caffeine and aspirin. One structure that may be both intriguing and confusing to students is that of chlorpromazine (Thorazine, Figure 1). A majority of students might well expect the ring portion of the molecule to show a planar structure. This is not what is found from calculations at the HF/6311++G(d,p) level in both the gas phase and in water. Instead, the three rings are in a V-like formation with a deformation of approximately 50 degrees from planarity. Tracking down the source of this non-planarity would be a useful computational exercise. Does it arise from the presence of the alkyl chain (steric effect), from the chloro group (electronic effect), or from electronic effects involving the elements of the heterocyclic ring? As a starting point to addressing these questions, students could be introduced to the use of model compounds in computation. One such compound would be the parent ring system phenothiazine (Figure 2). That molecule contains neither a chloro substituent nor an extended alkyl group. Is it also found to be non-planar? Is the deformation angle the same, larger, or smaller than in chlorpromazine? Does the addition of chloro group to phenothiazene change the angle significantly? What about the addition of an alkyl group? If the model compound is forced to be planar are all of the vibrational frequencies real (positive)? If not, what type of deformation is suggested by the imaginary (negative) vibration?
Drugs / Pharmaceuticals |
Forensic Chemistry