Real-time classroom comparison of structures and NMR spectra using Jmol/JSpecView and nmrdb Robert Hanson, St. Olaf College Robert Lancashire, U. of the.

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Presentation transcript:

Real-time classroom comparison of structures and NMR spectra using Jmol/JSpecView and nmrdb Robert Hanson, St. Olaf College Robert Lancashire, U. of the West Indies Luc Patiny, École Polytechnique Fédérale de Lausanne CHED th ACS National Meeting Denver, Colorado March 22, 2015

Question: What do you imagine to be the look and feel of the organic chemistry classroom in 2025? Will we still be using printed textbooks? Will we be using plastic models? What other resources will we be using?

Question: Do you use Google Images in class?

Question: Do you use Google Images in class?

Context – St. Olaf St. Olaf College – residential, liberal arts 3000 students; undergraduate only (750/yr) 300 students in first-year chemistry program 160 students take organic (3 sections+summer)

Context – Chemistry 247 Standard 2-semester course Textbook: Smith, 4 th ed. Early introduction of NMR, MS, and IR 1: Structure and Bonding 2: Acids and Bases 3: Introduction to Organic Molecules and Functional Groups 4: Alkanes 5: Stereochemistry 14: Nuclear Magnetic Resonance Spectroscopy 13: Mass Spectrometry and Infrared Spectroscopy 6: Understanding Organic Reactions 7: Alkyl Halides and Nucleophilic Substitution 8: Alkyl Halides and Elimination Reactions 9: Alcohols, Ethers, and Epoxides 10: Alkenes

Context – Chemistry 247 (Fall 2012, Hanson)

Context – Synthesis Lab Fully robotic 400 MHz NMR facility (2003) Routinely processes student samples per year

(Java) JSpecView Front-End for St. Olaf NMR Facility (2012)

(Java)

JSpecView Front-End for St. Olaf NMR Facility (2012)

Real-Time access to 3D chemical structures (2013) JSmol/JSME integration

Real-Time access to 3D chemical structures (2013) Allows easy generation of 3D structures from 2D drawings

Real-Time access to 3D chemical structures (2013)

Easy depiction of electrostatic potentials from chemical names Real-Time access to 3D chemical structures (2013)

Easy building and stereochemical tweaking of 3D models Real-Time access to 3D chemical structures (2013)

Easy building and stereochemical tweaking of 3D models Real-Time access to 3D chemical structures (2013)

Real-Time NMR spectrum prediction The idea: Start with 2D drawing or chemical name Analyze structure and predict the NMR spectrum Allow for correlated interaction among 2D, 3D, and spec

Real-Time NMR spectrum prediction The idea: Start with 2D drawing or chemical name Analyze structure and predict the NMR spectrum Allow for correlated interaction among 2D, 3D, and spec Use readily available cloud-based tools to do this.

Real-Time NMR spectrum prediction The idea: Start with 2D drawing or chemical name Analyze structure and predict the NMR spectrum Allow for correlated interaction among 2D, 3D, and spec Use readily available cloud-based tools to do this. Use fast real-time communication among web sites in Fredrick (Maryland), Lausanne (Switzerland), and Lisbon (Portugal)

Real-Time NMR spectrum prediction

Real-Time NMR spectrum prediction

Real-Time NMR spectrum prediction

Real-Time NMR spectrum prediction

Real-Time NMR spectrum prediction

Real-Time NMR spectrum prediction

Real-Time NMR spectrum prediction

Real-Time NMR spectrum prediction

Real-Time NMR spectrum prediction

Real-Time NMR spectrum prediction

Prediction of 13C and 2D spectra (LP)

Prediction of 13C and 2D spectra (LP)

Interactive IR analysis (RL)

Welcome to the age of the internet as a utility!

Thank you! Special thanks to: Marcus Sitzmann (NCI) Zhou Renjian (J2S) Peter Ertl (JSME) St. Olaf College

Luc’s son headed here via ferrata, near Lausanne, Switzerland