Professor
Prof. M Ravikanth
Areas Of Expertise
- Porphyrins
- Supramolecular chemisrty of metal complexes
- Metallation Studies
- Porphyrin,Porphyrin assemblies
- click chemistry,cyclophyosphazenes
- Building blocks
- Cationic
- Core modification
- Oxaporphyrins
- Water-soluble
- Boron-dipyrrin
- Core modified porphyrins
- Energy transfer
- Porphyrin building blocks
- Sulfur
- Supramolecular chemistry
- Palladium
- Bathochromic shifts
- Core-modified porphyrins
- Meso-furyl porphyrins
- Porphyrin planarity
- 21-oxoporphyrin
- 21-thiapyridyl porphyrins
- Unsymmetrical porphyrin arrays
- Substituted porphyrins
- Non-planarity
- Furan diols
- Heck reaction
- Synthetic methods
- Thiophenes
- Macrocycles
- Synthesis design
- Atomic force microscopy
- Meso-pyridyl pophyrin
- Molecular electronics
- Scanning tunneling spectroscopy
- Self-assembled monolayers
- cis-thiaporphyrin
- Covalent
- Functionalized unsymmetrical diols
- Non-covalent interactions
- Porphyrin trimer
- Thiophene diols
- Non-covalent dyads
- Core-modification
- Diacations
- Fluorescence
- Tetrafurylporphyrins
- Chlorins
- Confused porphyrins
- Corroles
- Covalent and non-covalent porphyrin arrays
- Heteroporphyrins
- Meso-Thienylporphyrins
- Spectroscopic properties
- 21-thiaporphyrin
- Meso-meso-linked dyad
- Palladium(0) coupling
- 21-Thiaporphyrins
- Lifetimes
- Porphyrin dyads
- Fluorescence quenching
- Porphyrin triad
- Unsymmetrical porphyrin dyad
- Functionalized porphyrins
- Porphyrin arrays
- Weak interaction
- Anion sensing
- Thiaphlorins
- Aggregation
- Core-modified water-soluble porphyrins
- Micelle
- Photoinduced electron transfer
- Resonance light scattering (RLS)
- Copper
- Phosphazenes
- Porphyrin arrays
- Porphyrinoids zinc
- Polymer building-blocks
- Porphyrin arrays
- Complexes
- Ligands
- Chloride
- Design
- Copper
- Phosphazenes
- Porphyrinoids
- Zinc
- Excited-state energy
- Magnesium tetraphenylporphyrin complexes
- Molecular-structure
- Electrochemical properties
- Absolute-configuration
- Optoelectronic gates
- Crystal-structure
- Mg
- Dihydrate
- Solvent
- Core-modified corroles
- Free-base corroles
- Photophysical properties
- 1st examples
- Electrochemistry
- Spectroelectrochemistry
- Cyclopropanation
- Dipyrromethanes
- Boron
- Nitrogen heterocycles
- Dyes/pigments
- Fluorescent probes
- Photophysics
- Nucleophilic substitution
- Quantum-chemical calculations
- Fluorescent bodipy dyes
- Spectral properties
- Lasing properties
- Charge-transfer
- PH probes
- Derivatives
- Molecular devices
- Fret
- Density functional calculations
- Acetylenyl bridge
- Light-harvesting arrays
- Donor-acceptor compounds
- H bond activation
- Multiporphyrin arrays
- Electron-transfer
- Heterobimetallic complexes
- Optical-properties
- Building-blocks
- Energy-transfer
- Beta
- Tin(iv) porphyrins
- Binding-properties
- Arrays
- Coordination
- Chemistry
- Dimers
- Ruthenium(II)
- Oligomers
- Click chemistry
- Electron transfer
- Azides
- Sandwich complexes
- Click chemistry
- Thiophene diols
- Cycloaddition
- Thiaporphyrins
- Borylation
- Building blocks
- Porphyrin dyads
- Energy transfer
- Assemblies
- Borylation
- Thiaporphyrins
- Alternative method
- Chloroform
- Ethanol
- Meso-substituents
- Spectral properties
- Tin porphyrin
- Bodipy
- Charge transfer band
- Ferrocene
- Chemodosimeter
- Colourimetric sensor
- Fluoride ion sensor
- Chemical Research Society of India (CRSI)-Bronze Medal
- Fellow, Indian Academy of Sciences, Bangalore
- IIT Bombay Research Paper Award / Research Publication Award (From 2015 onwards)
- Prof. S. C. Bhattacharya Excellence Award in Pure Sciences
- Fellow, Indian National Science Academy, New Delhi
- J C Bose Fellowship, The Department of Science and Technology, GoI