===============================================================

Hydrogen Atom Transfer-Driven Enantioselective
Minisci Reaction of Alcohols 

Avene C. Colgan, Rupert S. J. Proctor, David C. Gibson,
Padon Chuentragool, Kristaps Ermanis*, and Robert J. Phipps*

Yusuf Hamied Department of Chemistry, University of Cambridge,
Lensfield Road, Cambridge, CB2 1EW, United Kingdom

and

School of Chemistry, University of Nottingham,
University Park Nottingham, Nottingham, NG7 2RD
===============================================================

This dataset contains Gaussian DFT output files of the key ground-states
and transition state DFT optimized structures.

The data is organised in one archive containing 95 separate folders – 
the full structure of the archive is shown below.

There are two top level folders. 'ModelSystem_Full_Pathway' contains
computational files from the whole phosphoric acid-catalyzed pathway
exploration using a model system (Figure 2 in the paper and Figure 6
in ESI). The subfolders are named according to the notation used in
the figures.

'FullSystem_Deprotonation' contains computational files from the
investigation of the deprotonation transition state using the full DIP
catalyst structure. It has 2 subfolders - B3LYP_SMD_opt and M06-2X_SMD_opt,
containing the geometries optimized at the respective leves of theory.

Each of the lower level folders contain the output of a frequency calculation
at B3LYP/6-31g** level with SMD(1,4-dioxane) solvent model (*_freq.out files),
as well as at least one single point calculation at a higher level, either
at M06-2X/def2-TZVP/SMD(1,4-dioxane) or B2PLYPD3/def2-TZVP/SMD(1,4-dioxane)
level (*_sp.out files). All optimized geometries are also provided as *.sdf
files for even better usability.

All of the files can be opened in any text editor. Gaussian output structures
can be viewed and the frequency modes visualised in GausView, Avogadro, jmol
and in most other molecular viewers/editors. *.sdf files can be viewed in
essentially all 3D molecular editors and viewers.

├── FullSystem_Deprotonation
│   ├── B3LYP_SMD_opt
│   │   ├── RR1F_B3LYP_freq.out
│   │   ├── RR1F_M062X_def2-TZVP_sp.out
│   │   ├── RR1F_M062X_def2-TZVP_sp.sdf
│   │   ├── RR2F_B3LYP_freq.out
│   │   ├── RR2F_M062X_def2-TZVP_sp.out
│   │   ├── RR2F_M062X_def2-TZVP_sp.sdf
│   │   ├── RR8F_B3LYP_freq.out
│   │   ├── RR8F_M062X_def2-TZVP_sp.out
│   │   ├── RR8F_M062X_def2-TZVP_sp.sdf
│   │   ├── RS22F_B3LYP_freq.out
│   │   ├── RS22F_M062X_def2-TZVP_sp.out
│   │   ├── RS22F_M062X_def2-TZVP_sp.sdf
│   │   ├── RS23F_B3LYP_freq.out
│   │   ├── RS23F_M062X_def2-TZVP_sp.out
│   │   ├── RS23F_M062X_def2-TZVP_sp.sdf
│   │   ├── SR50F_B3LYP_freq.out
│   │   ├── SR50F_M062X_def2-TZVP_sp.out
│   │   ├── SR50F_M062X_def2-TZVP_sp.sdf
│   │   ├── SR51F_B3LYP_freq.out
│   │   ├── SR51F_M062X_def2-TZVP_sp.out
│   │   ├── SR51F_M062X_def2-TZVP_sp.sdf
│   │   ├── SS12F_B3LYP_freq.out
│   │   ├── SS12F_M062X_def2-TZVP_sp.out
│   │   ├── SS12F_M062X_def2-TZVP_sp.sdf
│   │   ├── SS1F_B3LYP_freq.out
│   │   ├── SS1F_M062X_def2-TZVP_sp.out
│   │   └── SS1F_M062X_def2-TZVP_sp.sdf
│   └── M06-2X_SMD_opt
│       ├── RS23C_M062X_def2-TZVP_sp.out
│       ├── RS23C_M062X_def2-TZVP_sp.sdf
│       ├── RS23C_M062X_freq.out
│       ├── SR51C_M062X_def2-TZVP_sp.out
│       ├── SR51C_M062X_def2-TZVP_sp.sdf
│       └── SR51C_M062X_freq.out

├── ModelSystem_Full_Pathway
│   ├── I
│   │   ├── SMC_B2PLYPD3_def2-TZVP_sp.out
│   │   ├── SMC_B3LYP_freq.out
│   │   ├── SMC_M062X_def2-TZVP_sp.out
│   │   └── SMC_M062X_def2-TZVP_sp.sdf
│   ├── II
│   │   ├── RSimC_B2PLYPD3_def2-TZVP_sp.out
│   │   ├── RSimC_B3LYP_freq.out
│   │   ├── RSimC_M062X_def2-TZVP_sp.out
│   │   ├── RSimC_M062X_def2-TZVP_sp.sdf
│   │   ├── SSimC_B2PLYPD3_def2-TZVP_sp.out
│   │   ├── SSimC_B3LYP_freq.out
│   │   ├── SSimC_M062X_def2-TZVP_sp.out
│   │   └── SSimC_M062X_def2-TZVP_sp.sdf
│   ├── III
│   │   ├── ProdC_B2PLYPD3_def2-TZVP_sp.out
│   │   ├── ProdC_B3LYP_freq.out
│   │   ├── ProdC_M062X_def2-TZVP_sp.out
│   │   └── ProdC_M062X_def2-TZVP_sp.sdf
│   ├── I-II
│   │   ├── RSaddF_B2PLYPD3_def2-TZVP_sp.out
│   │   ├── RSaddF_B3LYP_freq.out
│   │   ├── RSaddF_M062X_def2-TZVP_sp.out
│   │   ├── RSaddF_M062X_def2-TZVP_sp.sdf
│   │   ├── SSaddF_B2PLYPD3_def2-TZVP_sp.out
│   │   ├── SSaddF_B3LYP_freq.out
│   │   ├── SSaddF_M062X_def2-TZVP_sp.out
│   │   └── SSaddF_M062X_def2-TZVP_sp.sdf
│   ├── II-III
│   │   ├── RSdepr1F_B2PLYPD3_def2-TZVP_sp.out
│   │   ├── RSdepr1F_B3LYP_freq.out
│   │   ├── RSdepr1F_M062X_def2-TZVP_sp.out
│   │   ├── RSdepr1F_M062X_def2-TZVP_sp.sdf
│   │   ├── RSdepr32F_B2PLYPD3_def2-TZVP_sp.out
│   │   ├── RSdepr32F_B3LYP_freq.out
│   │   ├── RSdepr32F_M062X_def2-TZVP_sp.out
│   │   ├── RSdepr32F_M062X_def2-TZVP_sp.sdf
│   │   ├── RSdepr3F_B2PLYPD3_def2-TZVP_sp.out
│   │   ├── RSdepr3F_B3LYP_freq.out
│   │   ├── RSdepr3F_M062X_def2-TZVP_sp.out
│   │   ├── RSdepr3F_M062X_def2-TZVP_sp.sdf
│   │   ├── RSdepr59F_B2PLYPD3_def2-TZVP_sp.out
│   │   ├── RSdepr59F_B3LYP_freq.out
│   │   ├── RSdepr59F_M062X_def2-TZVP_sp.out
│   │   ├── RSdepr59F_M062X_def2-TZVP_sp.sdf
│   │   ├── RSdepr9F_B2PLYPD3_def2-TZVP_sp.out
│   │   ├── RSdepr9F_B3LYP_freq.out
│   │   ├── RSdepr9F_M062X_def2-TZVP_sp.out
│   │   ├── RSdepr9F_M062X_def2-TZVP_sp.sdf
│   │   ├── SSdepr12F_B2PLYPD3_def2-TZVP_sp.out
│   │   ├── SSdepr12F_B3LYP_freq.out
│   │   ├── SSdepr12F_M062X_def2-TZVP_sp.out
│   │   ├── SSdepr12F_M062X_def2-TZVP_sp.sdf
│   │   ├── SSdepr13F_B2PLYPD3_def2-TZVP_sp.out
│   │   ├── SSdepr13F_B3LYP_freq.out
│   │   ├── SSdepr13F_M062X_def2-TZVP_sp.out
│   │   ├── SSdepr13F_M062X_def2-TZVP_sp.sdf
│   │   ├── SSdepr1F_B2PLYPD3_def2-TZVP_sp.out
│   │   ├── SSdepr1F_B3LYP_freq.out
│   │   ├── SSdepr1F_M062X_def2-TZVP_sp.out
│   │   ├── SSdepr1F_M062X_def2-TZVP_sp.sdf
│   │   ├── SSdepr4F_B2PLYPD3_def2-TZVP_sp.out
│   │   ├── SSdepr4F_B3LYP_freq.out
│   │   ├── SSdepr4F_M062X_def2-TZVP_sp.out
│   │   ├── SSdepr4F_M062X_def2-TZVP_sp.sdf
│   │   ├── SSdepr5F_B2PLYPD3_def2-TZVP_sp.out
│   │   ├── SSdepr5F_B3LYP_freq.out
│   │   ├── SSdepr5F_M062X_def2-TZVP_sp.out
│   │   └── SSdepr5F_M062X_def2-TZVP_sp.sdf
│   ├── IV
│   │   ├── ProdDisocA_B2PLYPD3_def2-TZVP_sp.out
│   │   ├── ProdDisocA_B3LYP_freq.out
│   │   ├── ProdDisocA_M062X_def2-TZVP_sp.out
│   │   └── ProdDisocA_M062X_def2-TZVP_sp.sdf
│   ├── MePy
│   │   ├── MePyA_B2PLYPD3_def2-TZVP_sp.out
│   │   ├── MePyA_B3LYP_freq.out
│   │   ├── MePyA_M062X_def2-TZVP_sp.out
│   │   └── MePyA_M062X_def2-TZVP_sp.sdf
│   ├── MePyH_PA
│   │   ├── PAMePyA_B2PLYPD3_def2-TZVP_sp.out
│   │   ├── PAMePyA_B3LYP_freq.out
│   │   ├── PAMePyA_M062X_def2-TZVP_sp.out
│   │   └── PAMePyA_M062X_def2-TZVP_sp.sdf
│   ├── PAH
│   │   ├── PAA_B2PLYPD3_def2-TZVP_sp.out
│   │   ├── PAA_B3LYP_freq.out
│   │   ├── PAA_M062X_def2-TZVP_sp.out
│   │   └── PAA_M062X_def2-TZVP_sp.sdf
│   └── Rad
│       ├── RadA_B2PLYPD3_def2-TZVP_sp.out
│       ├── RadA_B3LYP_freq.out
│       ├── RadA_M062X_def2-TZVP_sp.out
│       └── RadA_M062X_def2-TZVP_sp.sdf
└── readme.txt

14 directories, 118 files