K Kumar Inorganic Chemistry Pdf 27
Terresa Cherrie
We work in the field of theoretical and computational chemistry, employing full quantum mechanical methods such as density functional theory (DFT) to understand processes occurring in Inorganic systems. The effective means for small molecule activation using inorganic complexes, new insights into mechanisms for organometallic catalysts, and the design of new systems that can exhibit metal-ligand cooperativity are some of the problems that we are currently interested in finding answers to. Our group also does work in developing methods for doing effective stochastic simulations of chemical systems. We also started Ab Initio molecular dynamics with the help of newly developed nanoreactor approach!!
The first which one faces even before opening the book to study inorganic chemistry is what is inorganic chemistry? and simplest answer of it which one may think is the word inorganic is the antonym of the term organic and study of any compound, not covered under the definition of organic compounds, is done under inorganic chemistry. term organic was proposed by Berzelius for the compounds having their origin from a living source but now the term is being used in a broader sense. organic compounds have principally maximum coordination number equal to four while in inorganic compounds it may be higher up to 12 or even more.
The Prime Chemistry Portal. We provide a comprehensive platform for Chemistry Students, Researchers, Professionals of Academia, Industry, Entrepreneurs and businesspersons with Chemistry as the main interest.
We are mostly interested in functional inorganic materials that are vital to createinnovative science and technology and thereby to address the issues of sustainable energy, healthcare and a clean environment.(1) Functional inorganic materials based on polyoxometalates (POMs),basic metal carboxylates (trinuclear metal oxo clusters), metal organicframeworks (MOFs) and metal-dithiolene coordination complexes.(2) The molecular functions include sensing toxic substances / molecularrecognition (referring health care), electrocatalytic water oxidation to oxygen,electrocatalytic water reduction to hydrogen (referring sustainable energy), aerialCO2 fixation (environmental care) and its use in organic synthesis, solid stateproton conduction and electrocatalyic oxygen reduction (in the context of fuel cell,energy issue). The synthesized materials also exhibit chiral separation,electrocatalytic proton reduction to molecular hydrogen, reversible syn-antiisomerization in the solid state (molecular machine) and organic functionalization(of industrial importance).(3) Exploring the solid-state properties of hybrid materials prepared by functionalization of inorganic complexes with different organic moieties. Developing new class of dithiolene materials exhibiting near IR absorption,conducting and NLO properties. Crystalline state transformations focusing gas-solid, gas-liquid reactions and light induced conversions. Another area, we are involved, is to study the supramolcular aspects of the molecular assemblies built from different organic and inorganic precursors. (4) we are also involved in the crystal engineering of Metal-Organic Frameworks in terms of design,synthesis, self-assembly and exploring the functional potential applications in the fields of adsorption,magnetic properties etc.
She submitted her Ph. D. thesis to Tripura University, Joined this group in 2019as D. S. Kothari Post Doctoral Fellow
Research Interests : POM, Metal organic framework, Electocatalysis, Proton conductivity, DFT, Sensing property
Email ID:sahapi...@gmail.com
A L U M N I Dr. Vaddypally Shivaiah Dr. Vaddypally Shivaiah Current Position: Research Assistant Professor, Temple University USA
Did his Ph.D. from University of Delhi
Joined this group in 2014 as Dr. D. S. Kothari Post Doctoral Fellow
Research Interests : NHCs based porous CPs & their utilization in heterogeneous catalysis
Email.ID: girije...@gmail.comCurrent Position: INSPIRE Faculty, Punjab University
Did her Ph. D. from University of North Bengal Joined this group in 2014 as Dr. D. S. Kothari Post Doctoral Fellow
Research Interests : Applications of organic-inorganic hybrid materials
Email.ID: jsd....@gmail.com
He submitted his Ph. D. thesis in 2014 to CSIR-National Chemical Laboratory, Pune Joined this group in 2014as D. S. Kothari Post Doctoral Fellow
Research Interests : Functional inorganic hybrid materials.
Email ID:joyas...@gmail.com
Current Position : Post-Doctoral Fellow, University of York
Did his Ph.D. from Sri Venkateswara University Joined this group in 2014 as UGC Postdoctoral fellow
Research Interests : Enviro-analytical chemistry, coordination complexes, water purification
Email ID:kprat...@gmail.com
Did his Ph. D. from University of Hyderabad. Joined this group in 2016 as Dr. D.S. Kothari Post Doctoral Fellow
Research Interests : Metal-Organic Frameworks, Coordination polymers
Email.ID: sks.sa...@gmail.com
Did his Ph. D. from Osmania University. Joined this group in 2017 as DST-SERB National Post Doctoral Fellow
Research Interests : Organometallic Catalysis, Polyoxometalate Chemistry
Email.ID: pradee...@gmail.com
Chemistry Department a confederation of constituent colleges has a total of 58 permanent faculty members out of which 16 Professors, 1 Associate Professor and 9 Assistant Professors are seated at University College of Science- main campus (The number also includes two Assistant Professors recruited under UGC-Faculty Recharge Programme and two Assistant Professors of the MSc Forensic Science (Self-finance course)). The remaining 32 (1 professor and 31 Assistant professors) are placed at various constituent colleges viz., Osmania University College of Engineering(1 Professor), University College of Technology(3), Nizam College(11), University College for Women(8), University College of Science- Saifabad, Hyderabad(7 +1 on lean) and Post Graduate College, Secunderabad(1).
Professor of Inorganic Chemistry
Area of Research: Coordination Chemistry, Drug DNA interactions, Synthetic Organic Chemistry, Pharmaceutical analysis, Drug polymorphism studies and impurity profiling of drug substances.
Professor of Organic Chemistry
Area of Research: Organic Synthesis involving C-C bond formation and thiazole ring formation and Investigation of their Photo physical Properties
Associate Professor of Organic Chemistry
Area of Research: Isolation of Natural products,Synthesis of their semi synthetic analogues and their evaluations for biological activity.
Professor of Organic Chemistry
Area of Research: Synthesis of heterocyclic compounds and their biological applications and C-H bond activation in the presence of Pd(0) complexes
Assistant Professor of Inorganic Chemistry
Area of Research: Coordination Chemistry, Bioinorganic Chemistry, Organometallic Chemistry, Biological Activity, Catalytic Applications On Drugs.
Assistant Professor of Physical Chemistry
Area of Research: Supramolecular Chemistry, Solar Cell device Fabrication studies and Organic field effect-transistors and Photocatalysis of Organic pollutants in the presence of Metal oxide semiconductor and Metal Organic Frameworks.
UGC- Assistant Professor of Organic Chemistry
Area of Research: The organosulfur chemistry, organoiodine(III) catalysis and applications of Baylis-Hillman adducts for divergent heterocycles synthesis.
Assistant Professor of Organic Chemistry
Area of Research: Computer Aided Drug Design, Molecular Modeling, Synthetic organic chemistry, Computational and Molecular docking studies.
Professor of Organic Chemistry
Area of Research: Molecular modeling and Medicinal chemistry- Methodology for the synthesis of new bioactive azaheterocycles and study their potentiality as antimicrobial and antitumor agents
Assistant Professor of organic Chemistry
Area of Research: Synthetic Methodologies; Design, synthesis and biological evaluation of Coumarin derivatives as anti-tubercular agents.
Assistant Professor of Physical Chemistry
Area of Research: chemical kinetics, photochemical studies of phytochemicals by radicals, Ecofriendly green synthesis of metal nanoparticles, characterization and pharmacological activities of synthesized metal nanoparticles.
Assistant Professor of Organic Chemistry
Area of Research: Synthesis of biologically active natural products and Development of new synthetic methodologies using Organo Catalysis
Assistant Professor of Physical Chemistry
Area of Research: Design and Synthesis of Molecules of biological Significance, Development of Newer Methodologies in Organic Synthesis and Homogeneous catalysis in redox reactions.
Assistant Professor of Inorganic Chemistry
Area of Research: Spectroscopic Investigations of Metal Complexes and Their Applications (Bioinorganic chemistry) and In silico Drug designing techniques, based on targeted approaches.
Chirality is a unique geometric property observed in nature at different hierarchical scales ranging from subatomic particles through molecules to galaxies. The filed of research is relevant to all scientific communities including chemistry, biology, physics and pharmacology. Over the decades, circular dichroism (CD) has been extensively used to study the ground chirality in molecules and material. However, circularly polarised luminescence (CPL), a relatively new technique, has gained vast attention in recent years, not only due to its potential to unravel the mechanism of excited state optical activity, but also due to the application CPL active materials offers in the field of light emitting devices, enantioselective catalysis, biosensing and spintronics. The talk will focus on the chiral investigations of various molecular systems, both organic chromophoric systems and inorganic complexes. The realm of optical activity is being extended from molecules to nanomaterials by the controlled self-assembly of molecular systems, thereby generating intense optical responses for the supramolecular aggregates. The field of optical activity has seen a rejuvenation after the observation of chirality in different class of nanomaterials. These include non-luminescent chiral plasmonic nanomaterials as well as luminescent chiral carbon nanodots and metal nanoclusters. Chirality induced both through intrinsic structural deformation, ligand hybridization and template assisted methods have been widely explored. Our recent efforts to understand the mechanistic details of ground and excited state chirality in these nanomaterials will also be discussed briefly.
b37509886e