(35) Catoire, L., M. T. Swihart, S. Gail, and P. Dagaut,"AnharmonicThermochemistry of Cyclopentadiene Derivatives", The InternationalJournalof Chemical Kinetics 35, 453-463 (2003). (download PDF)

(27) Catoire, L., and M.T. Swihart, "Thermochemistry ofspecies producedfrom monomethylhydrazine (MMH) in propulsion and space-relatedapplications", TheJournal of Propulsion and Power, 18, 1242-1253,(2002).

Quantum Chemistry Prasad Pdf 13

(15) Swihart, M.T. and L. Catoire, "Thermochemistry ofAluminum Speciesfor Combustion Modeling from Ab Initio MolecularOrbitalCalculations", Combustion and Flame, 121, 210-222 (2000). (download PDF)

(8) Swihart, M.T., and S.L. Girshick,"Thermochemistryand Kinetics of Silicon Hydride Cluster formation during ThermalDecompositionof Silane", The Journal of Physical Chemistry B, 103, 64-76 (1999). (download PDF)

(5) Swihart, M.T., and R.W. Carr, "Ab InitioMolecular OrbitalStudy of the Thermochemistry and Reactions of Chlorinated Disilenes andTheir Isomers (Si2HnCl4-n)", TheJournal of Physical Chemistry A, 102, 785-792 (1998). (download PDF)

(3) Swihart, M.T., and R.W. Carr,"Thermochemistryand Thermal Decomposition of the Chlorinated Disilanes (Si2HnCl6-n,n=0-6) Studied by ab Initio Molecular Orbital Methods", TheJournalof Physical Chemistry A, 101, 7434-7445 (1997). (download PDF)

Ram Yatan Prasad, PhD, DSc (India), DSc (hc) Colombo, is a professor of chemistry and former vice chancellor of S.K.M University, Jharkhand, India, and a life fellow of Indian Chemical Society and other societies of repute. He has been two times pro-vice chancellor in Bihar and Jharkhand. To his credit, he has been a member of editorial board in national journals. He has received an Outstanding Service Award from the Governor of Jharkhand. He has been chairperson of World Academy of Sciences, Paris, France, in the international conference and has received an Appreciation Award. He has more than 46 years of experience in teaching quantum chemistry, spectroscopy, and thermodynamics at the postgraduate level. Dr. Prasad is a prolific author of chemistry and has published many research papers in reputed journals to his credit.

Pranita, PhD, DSc (hc) Sri Lanka, FICS, is an assistant professor of chemistry at Vinoba Bhave University, India. She has published many research papers in national and international journals to her credit. Her area of interest is thermodynamics of liquid state. She has 12 years of teaching experience in quantum chemistry, statistics, and liquid state.

The European Physical Journal - Plus (EPJ Plus) distributes and archives material required to document, assess, validate and reconstruct in detail the body of knowledge in the physical and related sciences. The scope encompasses a broad landscape of fields and disciplines in the physical and related science with the explicit addition of geophysics, astrophysics, general relativity and cosmology, mathematical and quantum physics, classical and fluid mechanics, as well as physics techniques applied to energy, environment and cultural heritage.

R. Blatt, A. I. Lvovsky and G. J. Milburn (editors)The 20th anniversary of quantum state engineering Journal of Physics B: Atomic, Molecular and Optical Physics (special issue) 46, 100201 (2013)PDF

R. Kumar, E. Barrios, A. MacRae, E. Cairns, E. H. Huntington and A. I. LvovskyVersatile wideband balanced detector for quantum optical homodyne tomography Optics Communications 285, 5259 - 5267 (2012)PDF

Y. Chi, B. Qi, W. Zhu, L. Qian, H.-K. Lo, S.-H. Youn, A. I. Lvovsky and L. TianA balanced homodyne detector for high-rate Gaussian-modulated coherent-state quantum key distribution New Journal of Physics 13, 013003 (2011)PDF

M. Lobino, D. Korystov, C. Kupchak, E. Figueroa, B. C. Sanders and A. I. LvovskyCoherent-state quantum process tomographyProceedings of Ninth International Conference on Quantum Communication, Measurement and Computing AIP Conference Proceedings, volume 1110, issue 1, pp. 447 - 450 (2009)Edited by A. I. Lvovsky

A. I. Lvovsky and M. G. RaymerContinuous-variable quantum-state tomography of optical field and photonsSection in book: Quantum Information with Continuous Variables of Atoms and Light, pp. 409 - 430Edited by N. Cerf, G. Leuchs, and E. PolzikWorld Scientific, 2007

R. T. Horn, A. J. Scott, J. Walgate, R. Cleve, A. I. Lvovsky and B. C. SandersClassical and quantum fingerprinting with shared randomness and one-sided error Quantum Information and Computation 5, 258 - 271 (2005)PDF

A. I. Lvovsky and T. AicheleConditionally prepared photon and quantum imagingProceedings of Quantum Communications and Quantum Imaging II Optics+Photonics 2004 Proceedings of SPIE, volume 5551, issue 1, pp. 1 - 6 (2004)Edited by R. E. Meyers and Y. ShihPDF

G. Badurek, Z. Hradil, A. I. Lvovsky, G. Molina-Teriza, H. Rauch, J. Rehacek, A. Vaziri and M. ZawiskyMaximum-likelihood estimation in experimental quantum physicsSection in book: Quantum state estimationEdited by M.Paris and J. RehacekSpringer-Verlag, Berlin, Germany, 2004 PDF

H. Hansen, T. Aichele, C. Hettich, P. Lodahl, A. I. Lvovsky, J. Mlynek and S. SchillerAn ultra-sensitive pulsed balanced homodyne detector: Application to time-domain quantum measurements Optics Letters 26, 1714 - 1716 (2001)PDF

Drug metabolism involves the enzymatic conversion of therapeutically important chemical species to a new molecule inside the human body. The process may result in pharmacologically active, inactive, or toxic metabolite. Drug metabolic process involves two phases, the occurrence of which may vary from compound to compound. In this article, we discuss the basics of drug metabolism, the process, metabolising organs and enzymes (especially CYP450) involved, chemistry behind metabolic reactions, importance, and consequences with several interesting and significant examples to epitomize the same. We also cover the factors influencing the process of drug metabolism, structure-toxicity relationship, enzyme induction and inhibition.

The presented work has demonstrated that atom-centered potentials are a powerful tool for mitigating shortcomings of various computational methodologies. However, the ACPs were developed only for ten elements of the periodic table commonly found in organic and biological systems. The gradual next step would be to extend the ACP-based approach to other elements to allow the modeling of interesting applications involving transition metal chemistry, metalloproteins, metal-organic frameworks, etc. Another area we are currently interested in includes demonstrating how an efficient and accurate ACP-based approach can bridge the gap between obtaining high-quality training data and developing deep learning models.

The use of ideal nano-drug delivery system is decided primarily based on the biophysical and biochemical properties of the targeted drugs being selected for the treatment [8]. However, problems such as toxicity exhibited by nanoparticles cannot be ignored when considering the use of nanomedicine. More recently, nanoparticles have mostly been used in combination with natural products to lower the toxicity issues. The green chemistry route of designing nanoparticles loaded with drugs is widely encouraged as it minimises the hazardous constituents in the biosynthetic process. Thus, using green nanoparticles for drug delivery can lessen the side-effects of the medications [19]. Moreover, adjustments in nanostructures size, shape, hydrophobicity, and surface changes can further enhance the bioactivity of these nanomaterials. 2ff7e9595c