Dear Students, Here is an updated version of the lab module guidelines: PC_lab_course_Raman_Schultz_2023. You can cite this page as: Thomas Schultz, “UNIST Lab Course Guidelines: Raman Spectroscopy”, http://crasy.org/WP/archives/1578-10-2023-xk3 (accessed year-month-day). Greetings — Thomas
In the 2021 lab course, you are expected to analyze molecular structures based on rotational Raman spectroscopic results. Here is the 2021 lab course guideline: PC_lab_course_CRASY_Schultz Here is a 2018 lab guide for setting up an experiment to measure vibrational Raman spectra: PC_lab_course_Raman_Schultz. You can find the ACS report templates on the ACS Webpage. Please remember to delete the first page of the template and to set the line spacing to double-spaced. Here is a guideline for Writing_in_English_(1-page_for_Koreans), explaining how to write a clear scientific text. Writing in English is a challenge for […]
Attached below is a Python script to display spherical harmonics and spherical harmonic superpositions. Spherical harmonics are the angular wavefunctions (“eigenfunctions”) used to describe rotational states of molecules and the angular properties of electrons in atoms (i.e., “atomic orbitals”). A single eigenfunction of the Schrödinger equation is time-independent but dynamics can be described by a superposition (sum) of eigenfunctions. E.g., the square of a sum of spherical harmonics predicts the angular orientation of a molecule as function of time. To use the script, you need to have a functional version […]
Below, I posted a short video explaining how we observe rotation in the time domain. Please note that the video does not explain the quantum mechanical principles required to describe molecular rotation, but gives a pseudo-classical picture. This picture does not explain why molecular rotation is quantized or how we can relate rotational frequencies to molecular structure.
Here is a guide for CRASY data analysis, written for a UNIST lab course: PC_lab_course_CRASY_Schultz.pdf. You can find an installation guide for the data analysis software on page 6 and a guide for CRASY data analysis on the following pages. If you want to learn more about the CRASY experiment, navigate to the crasy.org landing page. Required Software You will require the following software: (1) Python (I suggest to install the “Miniconda” package.) (2) The crasyPlots program. If you have trouble installing or running the software, watch the walk-through video below. Data […]
Rotational Raman spectra as sound files.
The following are some resources that may help you with your scientific writing. Scientific writing can be a challenge even for native writers, so don’t despair. Practice makes perfect, so invest some time to become a good writer! If you have to write a report, please use a template and submit your report with double line spacing for easier correction. I propose the template from JACS for MS Word or Latex. To master structure and style, please refer to the relevant Style Guides. Here is a short 1-page cheat sheet […]
The introduction slides for the lab course can be found on the UNIST Blackboard system. Vibrational absorption frequencies for common chemical groups are listed in the IR_correlation_table. Relevant vibrational Raman reference spectra  are summarized in this document: Literature Raman spectra. You can ask questions to the teaching assistants 인호 (email@example.com) and Begum Ozer (firstname.lastname@example.org).  SDBSWeb : http://sdbs.db.aist.go.jp (National Institute of Advanced Industrial Science and Technology, Aug. 9, 2016)