| Department Name |
Source |
Finacial Year |
Amount Sanctioned |
Purpose |
| Department of Science and Technology |
Central |
2016-2017 |
1351082 Rs |
Amount if sanctioned to carry out project tilted "Transformative Crystallline Hybrid Porous Materils: Chemical Synthesis and Applications" to Dr. Suresh Babu. This project deals with one of the repidly developing areas of materials chemistry, i.e. metal-organic hybrid frameworks. The ultimate goal of this work is to design and develop MOFs that are functional for proactical applications with minimum limitations. |
| Department of Science and Technology |
Central |
2017-2018 |
1672563 Rs |
Amount if sanctioned to carry out project tilted "Transformative Crystallline Hybrid Porous Materils: Chemical Synthesis and Applications" to Dr. Suresh Babu. This project deals with one of the repidly developing areas of materials chemistry, i.e. metal-organic hybrid frameworks. The ultimate goal of this work is to design and develop MOFs that are functional for proactical applications with minimum limitations. |
| DST SERB |
Central |
2016-2017 |
265216 Rs |
Various quantum features have been considered as being responsible for the speed up of quantum computers, among them, quantum correlations and the in- indistinguishably among distinct quantum states |
| DST SERB |
Central |
2017-2018 |
500000 Rs |
Various quantum features have been considered as being responsible for the speedup of quantum computers, among them, quantum correlations and the indistinguishability among distinct quantum states. The current work explores the possible role of contextuality and continuity for the speed of information processing. The resulting model would be applied to Shors, Grover and Deutsch Jozsa in the corresponding generalized probability theory, preferably the operational probabilistic theory framework. |
| DST SERB |
Central |
2018-2019 |
450000 Rs |
Various quantum features have been considered as being responsible for the speedup of quantum computers, among them, quantum correlations and the in- distinguishability among distinct quantum states. The current work explores the possible role of contextuality and continuity to speed up information process. The resulting model would be applied to Shors, Grover and Duetsch Jozsa in the corresponding generalized probability theory, preferably, the operational probabilistic theory framework. |
| DST SERB |
Central |
2016-2017 |
591000 Rs |
Ribosomal RNA (rRNA) methyltransferases play crucial role in many cellular processes and are implicated in antibiotic resistance in many antibiotic producing strains. These methyltransferases modify the rRNA associated with ribosomes and hence the antibiotic binding site. We are pursuing structural studies of a putative rRNA methyltransferases from Mycobaterium Tuberculosis and from soil bacterium Sinorhizobium melitoli. The study is to provide better insights on mechanism of antibiotic resi |
| DST |
Central |
2017-2018 |
1060000 Rs |
Ribosomal RNA (rRNA) methyltransferases play crucial role in many cellular processes and are implicated in antibiotic resistance in many antibiotic producing strains. These methyltransferases modify the rRNA associated with ribosomes and hence the antibiotic binding site. We are pursuiing structural studies of a putative rRNA methyltransferases from the Mycobacterium Tuberculosis and from the soil bacterium Sinorhizobium meliloti. The study is expected to provide better insights on mechanism |
| DST SERB |
Central |
2018-2019 |
990000 Rs |
Ribosomal RNA (rRNA) methyltransferases play crucial role in many cellular processes and are implicated in antibiotic producing stains. These maltransferases modify the rRNA associated with ribosomes and hence the antbiotic binding site. We are pursuing structural studies of a putative rRNA methyltransferses from Mycobaterium Tuberculosis and from the soil bacterium Sinorhizbium meliloti. The study is expected to provide better insights on mechanism and antibiotic resistance and also give lea |
| DST SERB |
Central |
2017-2018 |
589000 Rs |
The physics of different physical systems at nanoscale are intersting in their own right. This research project has few scientific objectives for answering fundamental questions currently debated in literature on the topological properties in superconducting nanowire and interacting light matter physics. The description of topological excitation like quantum phase slipcenter in disordered superconducting nanowire and the appearance of Berezinskii Kosterlitz -Thouless transition in interacting |
| DST SERB |
Central |
2018-2019 |
0 Rs |
The physics of different physical systems at nanoscale are interesting in their own right. This research project has few scientific objectives for answering fundamental questions currently debated in the literature on the topological properties in superconducting nanowire and interacting light matter physics. The description of topological excitations like quantum phase slipcentre in disordered superconducting nanowire and the appearance of Berezinskii Kosterlitz Thousless transition in interac |
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