Computational analysis of LPNPTH anisotropies for dementia for Alzheimer’s syndrome by DFT and molecular harboring
K. Senthil Kannan, P. Thamaraikannan, S. Kannan, V. Kalaipoonguzhali, Ratnesh Kumar, K. Venkatachalam
Abstract
Crystals are of anisotropic in nature and have the mixture of applications based on this property and based on Non Linear Optical - NLO chattels and directional output in electric, mechanic and optic axes. Second order semi organic type of second categorized Non Linear Optical (NLO) crystal as Lithium Para Nitrophenolate Trihydrate (LPNPTH) which is well developed by sluggish desertion solution growth routine which is computationally analyzed by DFT for Molecular Electrostatic Potential (MEP), Homo-Lumo, molecular harboring and Harboring applications by software tools of Gaussian 09 and Autodock, in the ground of molecular modeling, It is found that the band gap is 0.13928 eV and LPNPTH can be used for Alzheimer's disease by the approach of harboring. Affinity mappings for all the atom varieties at hand, over and above an electrostatic mapping, were work out with a framework spacing of 0.456 Å. The energy assessment between binding spots of MSF-aged Torpedo californica Acetylcholinesterase and LPNPTH are -5.54 kCal/mol.