"Education through self-help is our motto." - Karmaveer
Rayat Shikshan Sanstha's
SADGURU GADAGE MAHARAJ COLLEGE, KARAD
(An Autonomous College)
Accredited ' A+ 'with CGPA 3.63 by NAAC ISO 9001:2015 Certified
| Year of Establishment | Programmes |
|---|---|
1965 |
B.Sc. (3 Year Integrated Degree Course, Semester Pattern) M.Sc. (2 Year Post Graduation Course CBCS Pattern) Specialization: Organic Chemistry Analytical Chemistry Career Oriented Certificate Course: Soil and Water Analysis Short Term Certificate Course: Milk Analysis Training Program: Preparation of Household Chemicals |
| P. G. Courses | |
|---|---|
| • M.Sc. Organic Chemistry : 60 | • M.Sc. Analytical Chemistry : 40 |
| Sr.No. | Photo | Details | Resume |
|---|---|---|---|
1 |
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Prin.Dr. Rajmane M.M. Principal, S.G.M. College, Karad Qualification: M.Sc. Ph.D. Specialization: Inorganic Chemistry Experience : 32 Years Mobile No : 9423271523 Email ID : [email protected] |
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2 |
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Mrs. Salunkhe A.S. Associate Professor & Head of Department Qualification: M.Sc. Ph.D. Specialization: Inorganic Chemistry Experience : UP : 29 Years PG : 15 Years Mobile No : 9561577402 Email ID : [email protected] |
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3 |
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Prof.(Dr) More U.B. Professor in Chemistry Qualification: M.Sc., Ph.D. SET Specialization: Organic Chemistry Experience : 27 Years Mobile No : 9860373480 Email ID : |
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4 |
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Dr. Mahamuni S.V. Assistant Professor Qualification: M.Sc., Ph.D. M.A., M.B.A. Specialization: Inorganic Chemistry Experience : 11 Years Mobile No : 9921458167 Email ID : [email protected] |
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5 |
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Mr. Pramod Dhondiram Kumbhar Qualification: M. Sc., NET, SET, Ph. D. Specialization: Inorganic Chemistry Designation: Assistant Professor in Chemistry Experience: UG : 9 years PG : 1 year Email: [email protected] / [email protected] Contact: 9960350302 |
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6 |
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Dr. Mulik A.G. Assistant Professor Qualification: M.Sc., Ph.D. SET., M.B.A. Specialization: Organic Chemistry Experience : 08 Years Mobile No : 9730326081 Email ID : [email protected] |
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7 |
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Mr. Khot D.S. Assistant Professor Qualification: M.Sc.,NET, SET, GATE Specialization: Physical Chemistry Experience : 08 Years Mobile No : 9764730566 Email ID : [email protected] |
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8 |
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Dr. Ananta Gulab Dhodamani Assistant Professor Qualification: M.Sc., Ph.D., SET Specialization: Physical Chemistry Experience: UG : 04 Years; PG : 4 Years. Mobile No: 7769030305 Email ID: [email protected] |
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9 |
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Mr. Tanpure V.S. Assistant Professor Qualification: M.Sc., NET, GATE Specialization: Organic Chemistry Experience : 07 years Mobile No : 7588542622 Email ID : [email protected] |
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10 |
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Dr. Sagar Hindurao Patil Qualification: M.Sc., NET-JRF, SET, Ph. D. Designation: Assistant Professor in Chemistry Experience: U.G. - 6 Years P.G. - 5 Years Email: [email protected] Contact No 8788504080 |
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11 |
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Mr. Shinde Shriram Abhimanyu Qualification: M.Sc., NET . Designation: Assistant Professor in Chemistry Experience: U.G. - 09 Years P.G. - 09 Years Email: [email protected] Contact: 9359157916 |
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12 |
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Mr. Anil Ramesh Baswat Qualification: M.Sc., NET, SET Designation: Assistant Professor in Chemistry Experience: U.G. - 3 Years P.G. - 3 Years Email: [email protected] Contact: 8793157648 |
| Sr. No. | After studying the course the student will be able to |
|---|---|
| 1 | Chemistry graduates can work in the chemical industry either as chemists working in the plant as research chemist, production chemist, Q A and Q C officers etc. |
| 2 | Chemistry graduates can serve primary schools, high schools as teachers & after post graduation can serve college or university as lecturers, professors etc. |
| 3 | Chemistry graduates & post graduates can opt for research work in various fields. |
| 4 | Chemistry graduates can opt for support services such as lab technicians, stockroom managers, safety officers etc |
| 5 | Government careers in national, state labs and agencies as analyst, food inspectors, sanitary inspectors, officers in pollution control departments RAW,CBI wings etc. |
| 6 | Chemistry graduates can work as assistant for doctors, dentists, veterinarians etc. |
| 7 | The B.Sc. degree in chemistry opens a lot of opportunities in fields as varied as medicine, law, business, science etc. Chemistry graduates can work as forensic chemists, biotechnologists, toxicologists, food chemists, cosmetics people, dyers etc. |
| Sr. No. | After studying the course the student will be able to |
|---|---|
| 1 | A master’s in organic chemistry degree will likely start with core modules setting out basics, such as the distinctions between organic and inorganic matter, the physical forces that govern atoms, and how scientists can predict an element’s behavior based on its atomic makeup. |
| 2 | Students grapple with modern theories like quantum mechanics, which seek to explain the behavior of matter |
| 3 | Chemistry is a highly practical degree, with significant teaching time spent in the lab perfecting techniques and performing experiments. |
| 4 | As students gain experience in the lab, they are offered the opportunity to perform open-ended experiments, trying out different solutions to chemistry problems posed to them. To do this, students master a variety of analytical techniques. Spectroscopy, the analysis of matter’s interaction with radiation, is one of the most important techniques taught, and features prominently in many degrees. |
| 5 | As students advance, they may choose to take modules in specialist topics such as pharmacology, chemical engineering, electrochemistry or nanotechnology. |
| 6 | Chemists are also hired by federal, provincial, and municipal government agencies in the areas of education (at all levels); public health; forensic investigation; water and air quality protection; mineral analysis; waste management, development of technical and analytical information; and research and development in the primary sectors of energy, mining, forestry and agriculture). |
| Sr.No | Month | Activity |
|---|---|---|
| 1. | June 2020 | Paper setting M.Sc.Entrance |
| Admission Process for M.Sc.I and M.Sc.II | ||
| 2. | July 2020 | Staff meeting of syllabus distribution |
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Minor research project proposals for RUSA Lecture capturing for online teaching |
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Allotment of annual work and schedule for online teaching Online lectures for M.Sc.II Enrollment to Swayam-NPTEL online courses. |
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| Faculty Development Program on E-Content development | ||
| 3. | August 2020 |
Admission process for B.Sc.I,B.Sc.IIand B.Sc.III Preparation of video lectures for online teaching |
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Online workshop on Research Methodology M.Sc.II Internal Tests |
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| Workshop on revised Syllabus (B.Sc.II and M.Sc.II) -FDP | ||
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Online lectures for B.Sc.I and B.Sc.II Home assignment/ Unit tests |
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| 4. | September 2020 | Online lectures for B.Sc.III |
| Guest lecture | ||
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Preparation of Progressive Report Staff meeting |
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| Home assignment/ Unit tests/Seminars/online tests | ||
| 5. | October 2020 | Online workshop for career development |
| Internal tests, Paper Setting | ||
| Home assignment/ Unit tests/Seminars/online tests | ||
| 6. | November 2020 | Project distribution for B.Sc.III and M.Sc.II students |
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Assessment of theory Examination Training programme on Household Chemicals |
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| 7. | December 2020 | Industrial visit/ Study tour/Field Survey |
| Instrumentation training for M.Sc. /B.Sc. talent batch students | ||
| Lead college activity | ||
| 8. | January 2021 | Guest lecture |
| Participation in Trade Fare | ||
| Home assignment/ Unit tests/Seminars | ||
| 9. | February 2021 |
Home assignment/ Unit tests/Seminars Poster presentation competition |
| Staff meeting | ||
| Internal Tests for B.Sc I,II,III | ||
| 10. | March 2021 | Poster presentation competition |
| Staff meeting regarding syllabus completion. | ||
| Question paper solving for B.Sc I,II,III | ||
| Student Satisfaction survey(SSS) | ||
| 11. | April 2021 | Autonomous college /University Practical Examination |
| Submission of annual reports of different activities/ committees, Feedback | ||
| Valedictory Function |
| Sr.No | Name Of Faculty | Title of Research Project | Sanctioned Amount | Funding Agency | Status |
|---|---|---|---|---|---|
| 01 | Prin. Dr. Rajmane M. M. | Solvent extraction of some lanthanides with N-noctylcyclohexyl amine | Rs. 1,25,000 | UGC | Completed |
| 02 | Mrs. Salunkhe A. S. | Physicochemical analysis of ground water in Karad Tehsil, State Maharashtra | Rs. 75,000 | UGC | Completed |
| Florescence study of synthesized carbon nano particles | Rs. 1,15,000 | RUSA | Ongoing | ||
| 03 | Prof. Dr. More U. B. | Synthesis and Characterization of Some New biologically Active Pyrimidine Compounds | Rs. 2,60,000 | UGC | Completed |
| Synthesis, characterization and biological activity of 2,5 disubstituted oxadiazoles | Rs. 1,20,000/- | RUSA | Ongoing | ||
| 04 | Dr. Mahamuni S.V. | Solvent extraction of refractory metals with N-noctylcyclohexyl-amine | Rs. 1,45,000 | UGC | Completed |
| Separation and removal of some toxic metal ions from waste effluents | Rs. 1,00,000/- | RUSA | Ongoing | ||
| 05 | Mr. Khot D. S. | Nanomaterial catalyzed synthesis of pyrazole containing heterocyclic compounds | Rs. 80000/- | RUSA | Ongoing |
| 06 | Dr. MulikA. G. | Eco-friendly Synthesis of Potentially Active Heterocyclic Compounds using Contemporary Catalytic Tools | Rs. 1,00,000/- | RUSA | Ongoing |
| 07 | Dr. Shelke R. N. | Development and Synthesis of New Molecule inhibitors of Epidermal Growth Factor Recceptor as Potential Anticancer Agent | Rs. 1,00,000/- | RUSA | Ongoing |
| 08 | Mr. Tanpure S. V. | Synthesis of ionic liquid and their catalytic applications for organic transformations | Rs. 90,000/- | RUSA | Ongoing |
| Sr.No | Name Of Faculty | Title of Research Paper | Journal |
|---|---|---|---|
| 01 | Prin. Dr. Rajmane M. M. | A modular approach for multicomponent synthesis of amidines using modified Scolecite | Applied Catalysis A: General 511, 2016, 95-105 |
| Cellulose‐supported N‐heterocyclic carbene silver complex with pendant ferrocenyl group for diaryl ether synthesis | Appl. Organometal. Chem, Volume 31, Issue 3 March 2017 e3576 | ||
| Sustainable synthesis of sulfonamides using supported ionic liquid phase catalyst containing Keggin-type anion | Appl. Organometal. Chem., Volume 30, Issue3 March 2016 Pages 125-131 | ||
| Solvent extraction separation of zirconium (IV) from succinate media with Nn-octylaniline | Journal of the Serbian Chemical Society 71 (3),2006, 223-234 | ||
| Selective liquid-liquid extraction of antimony (III) from hydrochloric acid media by Nn-octylaniline in xylene | Journal of the Serbian Chemical Society 69 (4), 2004, 283-298 | ||
| Compatibility of supported ionic liquid phase catalysts under ultrasonication | Journal of Molecular Liquids 265,2018, 525-535 | ||
| An ionic liquid gel: a heterogeneous catalyst for Erlenmeyer–Plochl and Henry reactions | New Journal of Chemistry 42 (13), 2018 10993-11005 | ||
| Water‐Mediated Synthesis of Anthelmintic Piperidinols and Their Molecular Docking Studies | Chemistry Select 3 (20),2018, 5581-5587 | ||
| Selective solvent extraction of tungsten (VI) with Nn-octylaniline in xylene | Bulletin of the Chemists and Technologists of Macedonia 24 (1),2005, 1-9 | ||
| Solvent extraction separation of molybdenum (VI) by Nn-octylaniline | Bulgarian Chemistry and Industry 72 (3/4), 2001, 84-91 | ||
| Highly selective liquid-liquid extraction of niobium (V) from halide media with high molecular weight amines | Revue Roumaine de Chimie 49 (6), 2004, 531-537 | ||
| 02 | Mrs. Salunkhe A. S. | Physicochemical Analysis of ground water in Karad Tehsil [MS] India | Bionano Frontiers, 8 (3), 2015, 79-82 |
| Blended Learning-The best method of interactive teaching and learning in 21st century | Online National Conference, Vidyawarta, September 2020, Issue 09, 170-173 | ||
| 03 | Prof. Dr. More U. B. | Synthesis of Biologically Active Carvacrol Compounds Using Different Solvents and Supports. | Synth. Commun., 37 (12), 1957-1964, (2007). |
| Fly ash as a new Solid Support for Synthesis of 2- Mercaptobenzothiazole under Microwave Irradiation Technique in Dry Media. | Synth. Commun.,7(4), 575-579, (2007). | ||
| Solid supported synthesis of 2-mercaptobenzimidazole derivatives using microwaves | J. Sci & Ind. Res. 67(5), 374, (2008). | ||
| Solid-Supported Synthesis of Bioactive Carvacrol Compounds Using Microwaves | Synth. Commun.,38, 2413–2418, (2008). | ||
| Synthesis of New DimericCarvacrol Compounds | Organic Communications, 1:4, 69-75, (2008). | ||
| An Efficient and Environmentally Friendly Wolf-Kishner Reduction Catalyzed by Strong Base Anion-Exchange Resin | Organic Chemistry: An Indian Journal, 4(12), 537-539, (2008). | ||
| Mild and Efficient Copper Sulphate Catalyzed Synthesis of Bis-Indolylmethanes | Organic Chemistry: An Indian Journal, 4(12), 483-485, (2008). | ||
| Polymer Supported Synthesis of Derivatives of Some Bioactive Heterocyclic cmpounds | Indian Journal of Heterocyclic Chemistry, 19, 43-46, (2009). | ||
| An efficient synthesis of 1, 5-benzodiazepines using AlCl3 under solvent free Condition | Asian Journal of Chemistry, 23(10), 4311-4313, (2011). | ||
| One-pot Synthesis of 3, 4 –Dihydropyrimidin-2-(1H)-ones using Nickel Chloride as a Catalyst | Asian Journal of Chemistry, 24(5), 1906-1908, (2012). | ||
| Synthesis and Characterization of 2-(4-bromophenyl)-1H- benzimidazole and 2- (6-bromochroman-2-yl)-1H- benzimidazole Compounds | Organic Chemistry: An Indian Journal, 9(4), 137-142, (2013). | ||
| One-pot Synthesis of 2, 4, 5-Trisubstituted Imidazoles using Chloroacetic Acid as a Catalyst | Bionano Frontiers, 8(3), 17-20, (2015). | ||
| 03 | Silica: as an Efficient and Reusable Catalyst for the Multi-component Synthesis of AmidoalkylNaphthols | Bionano Frontiers, 8(3), 106-110, (2015). | |
| RP-HPLC Method for Simultaneous Estimation of Impurities from Emtricitabine And Tenofovir Disoproxil Fumarate Tablet | International Journal of Pharmaceutical Sciences and Research, 7(4): 1662-1669, (2016). | ||
| Development and Validation of RP-HPLC Method for Simultaneous Estimation of Impurities from OlmesartanMedoximil and Hydrochlorothiazide Tablet | International Journal of Pharmacy and Pharmaceuitical Sciences, 8 (5), 45-48, (2016). | ||
| A Solvent Free Green Protocol for Synthesis of 5-Arylidine Barbituric Acid | International Journal of Organic and Bioorganic Chemistry, 6 (1): 1-5,(2016). | ||
| Polymer-Supported Reactions: Environmentally Benign Synthesis in OrganicChemistry: A Review | International Journal of Research in Organic Chemistry, 6(2), 27-35, (2016). | ||
| Synthesis of Xanthenediones by Silica Supported Orthophosphoric Acid (H3PO4·SiO2), |
Asian Journal of Chemistry, 30(10), 2343-2346, (2018) |
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| Synthesis and Characterization of Some New Biologically Active Pyrimidine Derivatives |
Rasayan Journal of Chemistry, 11(3), 1217-1221, (2018). |
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| 04 | Dr. Mahamuni S.V. | Liquid–liquid extraction and recovery of gallium(III) from acid media with 2-octylaminopyridine in chloroform: analysis of bauxite ore | Journal of the Serbian Chemical Society 75 (8) (2010) 1099-1113. |
| Solvent extraction of trivalent indium from succinate solution by 2-Octylaminopyridine in chloroform | Journal of the Iranian Chemical Society 6 (1) March 2009, 200-212. | ||
| Rapid liquid-liquid extraction of thallium(III) from succinate media with 2-octylamino- pyridine in chloroform as the extractant. | S. V. Mahamuni, P. P. Wadgaonkar, M. A. Anuse | ||
| Extraction Behaviour of Aluminium (III) as Succinate in High Molecular Mass Amine | Chemical Environmental Research 17(3-4) (2008) 285-299. | ||
| Sequential separation of selenium(IV) from tellurium(IV) by solvent extraction with N-n-octylaniline: Analysis of real samples | Journal of Saudi Chemical Society 15 (2011) 177-185 | ||
| Solvent extraction separation of zirconium(IV) from succinate media with N-n-octylaniline | Journal of the Serbian Chemical Society 71 (3) (2006) 223–234 | ||
| Extractive spectrophotometric determination of bismuth(III) in alloy samples using 1-amino-4, 4, 6-trimethyl (1H, 4H) pyrimidine-2-thiol. | Indian Journal of Chemical Technology. 12 (2005) 365-368. | ||
| Selective solvent extraction of tungsten(VI) with N-n-octylaniline in xylene | Bulletin of Chemists and Technologists of Macedonia 24 (1) (2005) 1-9. | ||
| Extraction and separation of mercury(II) from succinate media with high molecular weight amine as an extractant | Journal of Saudi Chemical Society, 19(1) January 2015, Pages 46-53. | ||
| Hexavalent chromium recovery by liquid-liquid extraction with 2-octylaminopyridine from acidic chloride media and its sequential separation from other heavy toxic metal ions | Arabian Journal of Chemistry, Volume 9, Supplement 2, November 2016, Pages S1420- S1427 | ||
| 05 | Dr. Mulik A. G. | CuO nanoparticles and nanobelts catalyzed potent synthesis of Benzopyran derivatives | Research on Chemical Intermediates,DOI-10.1007/s11164-019-03925-x, June 2019 |
| Highly proficient extraction separation of thorium(IV) from sulfuricacid solution using N‑n‑decylaniline: real sample analysis | Journal of Radioanalytical and Nuclear Chemistry, DOI-10.1007/s10967-020-07204-7, 2020 | ||
| Proficient synthesis of quinoxaline and phthalazinetrione derivatives using [C8dabco] Br ionic liquid as catalyst in aqueous media | Journal of Molecular Liquids 179, (2013), 104-109 | ||
| Efficient, rapid avenue for synthesis of highly substituted piperidines using polystyrene sulfonic acid | Research on Chemical Intermediates 43 (2), (2017) 729-736 | ||
| Protic ionic liquids: a lucid, rational tool for synthesis of phthalazinediones, quinoxalines and benzopyrans | Research on Chemical Intermediates 41 (12), (2015), 10085-10096 | ||
| Polymer‐Supported Sulfonic Acid‐Catalyzed Candid Synthesis and Photophysical Properties of 2H‐indazolo [2, 1‐b] phthalazinetriones | Journal of Heterocyclic Chemistry 52 (3), (2015), 931-937 | ||
| Glycerol-promoted catalyst-free one-pot three component synthesis of 1H-pyrazolo [1, 2-b] phthalazinediones | Der PharmaChemica 5 (2), (2013)19-23 | ||
| Oxalic acid dihydrate and proline based low transition temperature mixture: An efficient synthesis of spiro [diindenopyridine-indoline] triones derivatives | Journal of Molecular Liquids 219, (2016), 573-578 | ||
| Oxalic acid dihydrate: Proline (LTTM) as a new generation solvent for synthesis of 3,3-diaryloxindole and chromone based bis(indolyl)alkanes: Green, chromatography free protocol | Journal of Molecular Liquids 207, (2015), 14-20 | ||
| Ion-pair based liquid-liquid extraction of gold(III) from malonate media using 2-octylaminopyridine as an extractant: analysis of alloys, minerals and drug samples | Turkish Journal of Chemistry, DOI: 10.3906/kim-1712-34, 2018 | ||
| Novel Brønsted Acidic Ionic Liquid ([CMIM][CF3COO]) Prompted Multicomponent Hantzsch Reaction for the Eco-Friendly Synthesis of Acridinediones: An Efficient and Recyclable Catalyst | Catalysis letters 144 (5), (2014), 949-958 | ||
| One pot four component sequential synthesis of hexahydroquinoline derivatives in aqueous media via enaminone intermediates: A green protocol | Journal of Saudi Chemical Society 21, (2017), S329-S338 | ||
| Synthesis of some novel quinonediimine derivatives of benzo‐15‐crown‐5 for application in Hg2+ recognition | Luminescence 29 (6), (2014), 586-590 | ||
| Novel dibenzo-18-crown-6 ether functionalized bis-benzimidazole derivatives: synthesis and antifungal evaluation | Research on Chemical Intermediates 42 (3), (2016), 2449-2459. | ||
| Oxalic acid dihydrate: proline as a new recyclable designer solvent: a sustainable, green avenue for the synthesis of spirooxindole | Research on Chemical Intermediates 42 (2), (2016), 1411-1423. | ||
| Novel crown ether functionalized imidazolium-based acidic ionic liquid catalyzed synthesis of pyrazole derivatives under solvent-free conditions | Research on Chemical Intermediates 41 (9), (2015), 6843-6858 | ||
| Camphor-10-sulfonic acid catalyzed atom efficient and green synthesis of triazolo [1, 2-a] indazole-triones and spirotriazolo [1, 2-a] indazole-tetraones | Research on Chemical Intermediates 41 (2), (2015), 761-771 | ||
| Synthesis and Cation Recognition Study of Novel Benzo Crown Ether Functionalized Enamine Derivatives | Synthetic Communications 45 (16), (2015), 1902-1911 | ||
| Synthesis of Novel Dibenzo‐18‐crown‐6‐ether‐Functionalized Benzimidazoles and its Applications in Colorimetric Recognition to Hg2+ and as Antifungal Agents | Journal of Heterocyclic Chemistry 52 (2), (2015), 468-472 | ||
| Multicomponent synthesis of highly functionalized piperidines using sulfamic acid as a heterogeneous and cost effective catalyst | Indian Journal of Chemistry, 54B, (2015), 545 | ||
| Synthesis of some novel 3, 5-diarylpyrazole derivatives of dibenzo-18-crown-6-ether | Indian Journal of Chemistry, 52B (10), (2013), 1352 | ||
| An efficient synthesis of bis (indolyl) methanes under solvent free condition using Silica supported Chloroacetic Acid as reusable Catalyst | Der Pharmacia Lettre 4 (1), (2012), 54-60 | ||
| Crown ether complex cation like ionic liquids: synthesis and catalytic applications in organic reaction | Der Pharmacia Lettre 4 (1), (2012), 54-60 | ||
| An Efficient, Greener synthesis of 2-Aryl-1-Arylmethyl-1H-Benzimidazoles using Polystyrene Sulfonic acid as a Catalyst | Der Pharm. Chem 3 (6), (2011), 599-605 | ||
| Synthesis and Crystal Structure of 2-amino-7, 7-dimethyl-4-(4-nitrophenyl)-5-oxo-1, 4, 5, 6, 7, 8-hexahydroquinoline-3-carbonitrile | European Chemical Bulletin 3 (3), (2014), 296-299 | ||
| 2-Amino-7, 7-dimethyl-5-oxo-4-[3-(trifluoromethyl) phenyl]-1, 4, 5, 6, 7, 8-hexahydroquinoline-3-carbonitrile | ActaCrystallographica Section E: Structure Reports Online 69 (1), (2013), 105. | ||
| Synthesis and antibacterial evaluations of (3, 5-dimethyl-1H-pyrazol-4-yl)-phenyl-diazenes | J Chem Pharm Res 2, (2010), 574-579 | ||
| 06 | Dr. Shelke R. N. | Synthesis and anti-proliferative activity studies of 2-(2-(trifluoromethyl)-6-(substituted)imidazo[1,2-b]pyridazin-3-yl)-N-(substituted)acetamide derivatives. | Journal of Heterocyclic Chemistry, 57, 2020, 1925-1935 |
| Synthesis and evaluation of novel sulfonamide analogues of 6/7-aminoflavones as anticancer agents via topoisomerase II inhibition. | Bioorganic & Medicinal Chemistry Letters, 30, 2020, | ||
| Synthesis of substituted pyrimidine using ZnFe2O4 nanocatalyst via one pot multi‐component reaction ultrasonic irradiation. | Journal of Heterocyclic Chemistry, 57, 2020, 3326-3333 | ||
| Ultrasound-assisted synthesis and biological significance of substituted 4H-chromene-3- carbonitrile using greenery approaches | Current Chemistry Letters, 9, 2020, 43-52 | ||
| 07 | Mr. Tanpure S. V. | Novel Catalytic Application of Ni@ZnO Nanoparticles and ZnO nanoflakes in aqueous solution of NaPTS hydrotrope at Room Temperature via a green Synthesis of 3, 4-Dihydropyrimidi- 2(1H) ones | Research on Chemical Intermediates (2018) 44:3097–3113 IF: 2.064. |
| The Eggshell Waste Transformed Green and Efficient Synthesis of K-Ca(OH)2 Catalyst for Room Temperature Synthesis of Chalcones | Polycyclic Aromatic Compounds (2020) DOI: org/10.1080/10406638.2020.1776740 IF: 1.894 |
| Name of Faculty | Citation index | h-index | i10 index |
|---|---|---|---|
| Prin. Dr. Rajmane M. M. | 65 | 4 | 2 |
| Prof. Dr. More U. B. | 105 | 6 | 3 |
| Dr. Mahamuni S.V. | 135 | 9 | 8 |
| Dr. MulikA. G. | 248 | 9 | 9 |
| Dr. Shelke R. N. | 65 | 3 | 2 |
| Mr. Tanpure S. V. | 08 | 1 | 0 |