Welcome to Sapala Organics Private Limited
Sapala Organics Private Limited was established in 2005 as a Contract Research Organization (CRO) specializing in custom synthesis of various organic compounds. Sapala offers services for Organic Synthesis in the area of life and material sciences.
Video tour Photo GalleryResearch
- Drugs and its intermediate synthesis
- Molecular design building structure-activity relationship
- Library synthesis
- Biotransformation
- Synthesis of Dyes for photo-functional applications
- Process research
- Analytical method development and validation
Analytical Equipments
- NMR - Jeol / AL-400 MHz, multi probe facility for 1H, 11B, 13C, 17O, 19F & 31P
- LC/MS – Shimadzu / LC-2010EV with APCI and ESI probes
- HPLC - Jasco 2000, detectors UV-2075, RI-2031 & PDA-MD-2015.
- HPLC - Agilent 1260.
- Preparative HPLC - Jasco 2000, UV-2075
- GC - Shimadzu 2010 with auto injector
- Digital Polarimeter- Jasco / P-1030
- FTIR - 4100
- Jasco UV-Visible Spectrophotometer V-630
Developments at Sapala
1. Sapala has developed multistep synthesis of functionalized cyclopentanoid system (widely used as intermediate in drug synthesis) in kilogram scale using both classical and modern synthetic tools. Ring closing metathesis reaction was performed in multi-gram scale.
2. Sapala has developed a Biotransformation process involving multi-gram scale enzymatic oxidation of amine group of nucleoside to keto group using “ADA” enzyme.
3. Sapala has developed a Biotransformation process involving multi-gram scale regio and stereo specific oxidation of poly-unsaturated fatty acid using “lipoxygenase” have also been performed in multigram scale.
4. Sapala has successfully employed the [2+2] photocycloaddition reaction as a key step to construct bicycle and azabicyclo ring system.
5. Sapala achieved significant break-throughs in Nucleoside chemistry involving the synthesis of a variety of nucleosides using traditional and modern glycosylation techniques.
6. Sapala has a demonstrated track record in carrying out successfully Library Synthesis for Pharmaceutical Companies and Academic Institutions. Sapala is equipped with Parallel Synthesizer which enables efficient synthesis of Library molecules for SAR studies.
7. Sapala has successfully synthesized various novel hetero-aromatic boronates which can be employed for Suzuki Coupling reaction.
8. Sapala has developed novel processes for the synthesis of Polypyridines. A series of Bipyridine and Terpyridine derivatives have been synthesized at Sapala which find applications in Catalysis and Dye Sensitized Solar Cells.
9. Sapala has been successful in the multi-gram scale synthesis of Metal Complexes of bipyridines, terpyridine, porphyrins and phthalocyanines were made in multigram scale.
2. Sapala has developed a Biotransformation process involving multi-gram scale enzymatic oxidation of amine group of nucleoside to keto group using “ADA” enzyme.
3. Sapala has developed a Biotransformation process involving multi-gram scale regio and stereo specific oxidation of poly-unsaturated fatty acid using “lipoxygenase” have also been performed in multigram scale.
4. Sapala has successfully employed the [2+2] photocycloaddition reaction as a key step to construct bicycle and azabicyclo ring system.
5. Sapala achieved significant break-throughs in Nucleoside chemistry involving the synthesis of a variety of nucleosides using traditional and modern glycosylation techniques.
6. Sapala has a demonstrated track record in carrying out successfully Library Synthesis for Pharmaceutical Companies and Academic Institutions. Sapala is equipped with Parallel Synthesizer which enables efficient synthesis of Library molecules for SAR studies.
7. Sapala has successfully synthesized various novel hetero-aromatic boronates which can be employed for Suzuki Coupling reaction.
8. Sapala has developed novel processes for the synthesis of Polypyridines. A series of Bipyridine and Terpyridine derivatives have been synthesized at Sapala which find applications in Catalysis and Dye Sensitized Solar Cells.
9. Sapala has been successful in the multi-gram scale synthesis of Metal Complexes of bipyridines, terpyridine, porphyrins and phthalocyanines were made in multigram scale.