International Conference on Advances in Organic Chemistry
Jan 27-29, 2025
Goa
In Updation
The Speakers
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University of Regensburg, Germany
Prof. Oliver Reiser's current research interests lie in the areas of catalysis, natural and active ingredients, and peptide foldamers. His work extensively utilizes modern techniques for the synthesis of organic substances, including flow reactors, microwave-assisted synthesis, and high-pressure reactions in the liquid phase.
​Asunción Barbero
University of Valladolid, Spain
Dr. Barbero's current interests include the study of the silyl-cupration of multiple bonds and its application to the synthesis of natural and related products. She has co-authored numerous international scientific publications and has delivered several invited and plenary lectures in international conferences. She was also awarded by Marie Curie Postdoctoral Fellowships.
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Svetlana Tsogoeva
Friedrich Alexander University, Germany
Prof. Tsogoeva is working on asymmetric organocatalysis which is focused on development of readily accessible and environmentally friendly one-pot syntheses (including domino reactions) of bioactive heterocycles using organocatalytic methods. Also, her group is developing novel chiral bifunctional organocatalysts for various reactions in both conventional solvents and in water. Under natural product hybrids project for medical chemistry, her research team is working on the synthesis of artesunate-containing and other biologically active hybrid molecules for use in anticancer, antiviral and anti-malaria research.
Andreas Kirschning
Leibniz University Hannover, Germany
Research in the Kirschning group aims to strategically combine a diverse range of these synthetic approaches, including biotechnological methods based on enzymes and whole cells; enabling technologies such as flow chemistry and inductive heating in organic synthesis; and the total synthesis of complex organic molecules, to initiate biomedical studies of new molecules and materials with promising therapeutic potential.
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Prof. Yasushi Nishihara
Department of Chemistry
Okayama University, Japan
Prof. Yasushi Nishihara’s research explores cutting-edge organic synthesis, catalysis, and material science. He has developed novel nickel- and palladium-catalyzed decarbonylative transformations of acyl fluorides and highly regio- and stereoselective approaches to multi-substituted olefins. His work includes precise synthesis of phenacene-type molecules and sulfur-containing polycyclic aromatic hydrocarbons for organic field-effect transistors. Prof. Nishihara also focuses on phenacene-based semiconducting polymers for high-performance organic solar cells and electron-deficient heteropolycyclic aromatic frameworks for advanced semiconducting materials.
Yoshiji Takemoto
Graduate School of Pharmaceutical Sciences, Kyoto University, Japan
​Prof. Yoshiji works in the field of life sciences, particularly in pharmaceuticals and bioorganic chemistry. He is also involved in materials chemistry and nanotechnology. His current research interests include asymmetric reactions based on organometallic compounds and organic synthesis with minimal environmental impact. Additionally, he is focused on the total synthesis of bioactive natural products and the development of heterocyclic systems for drug discovery.
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Tokyo Institute of Technology, Japan
Prof. Nakamura’s research team focuses on the discovery of drug candidates for anticancer agents, the development of new methodologies for target protein-selective modification in chemical biology, and the development of efficient boron delivery systems for neutron capture therapy in cancer. Their research is also directed toward interdisciplinary areas, utilizing organic synthetic technology to explore and control vital functions for innovative drug discovery.
Prof. Samir Z. Zard
Laboratoire de Synthèse Organique Ecole Polytechnique, France
Prof. Samir's research interests concern the study and development of new reactions and processes, with a particular emphasis on the chemistry of organosulfur and organofluorine derivatives, alkynes, nitro compounds, and radicals. Work in the last area has resulted in the powerful RAFT-MADIX process for controlled polymerization, which allows the industrial production of block polymers. He has authored or co-authored 394 publications and 39 patents, and presented nearly 699 invited lectures and seminars at national and international meetings and universities.
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Prof. Janine Cossy
University of Paris, France
Prof. Janine's team focuses on developing innovative synthetic methods, with a particular emphasis on the (stereo)selective synthesis of unique building blocks that have potential applications in medicinal chemistry and material science. Their projects aim to create molecular diversity through the synthesis and functionalization of various heterocycles and strained ring systems. They prioritize sustainable reactions to produce high-value molecules, with a strong preference for catalytic processes, especially those using earth-abundant metal catalysts. Additionally, their research includes both homogeneous and heterogeneous photocatalysis using visible light.
Prof. Christoph Schneider
University of Leipzig, Germany
Prof. Schneider’s group specializes in synthetic organic chemistry in its full scope. This includes the development and optimization of new synthetic processes, their detailed mechanistic analysis, and their application in the total synthesis of complex natural products. A key focus is on enantioselective catalysis using both chiral organocatalysts and chiral transition metal complexes, which can control the absolute configuration of the products.
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Dr. Namrata Rastogi
Division of Medicinal and Process Chemistry
CSIR-Central Drug Research Institute, Lucknow
Dr. Namrat’s research group focuses on developing methodologies for constructing privileged heterocycles and carbocycles, with a special interest in diazo compound chemistry. They have pioneered several novel reactions of diazo compounds, such as dipolar cycloaddition, substitution, addition-elimination, insertion, and ylide rearrangement. Recently, they employed diazo compounds in visible light-mediated reactions. Another key area of their research is Visible Light Photoredox Catalysis (VLPC), which has advanced significantly but remains limited by the use of organometallic Ir and Ru complexes. To address this, they have developed “organo-photoredox” catalysis using organic dyes and small molecules. Additionally, their group focuses on parasitic diseases like malaria and leishmaniasis, particularly visceral leishmaniasis, which threatens regions such as India and Brazil. They are actively developing small molecules based on privileged heterocyclic scaffolds to combat these diseases.
Prof. Anil Kumar
Department of Chemistry
BITS Pilani, Pilani Campus
Prof. Kumar's research group focuses on advancing the field of organic synthesis through innovative methodologies. Their primary interest lies in transition metal-catalyzed C-H activation. They are also developing new reaction methodologies using novel catalysts for organic reactions under environmentally friendly conditions. Additionally, their work includes the design and synthesis of task-specific ionic liquids tailored for organic synthesis.
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Prof. Biplab Maji
Department of Chemical Sciences
Indian Institute of Science Education and Resesrch Kolkata
Prof. Biplab Maji's research team focuses on developing innovative catalytic systems in molecular catalysis, including metal, organocatalysis, and photoredox catalysis. Their work emphasizes creating new methods for carbon-carbon and carbon-heteroatom bond formation, as well as cascade reactions. By studying reaction mechanisms and kinetics, they contribute to physical organic chemistry and apply their findings to the synthesis of natural products and bioactive compounds.
Prof. Durga Prasad Hari
Department of Organic Chemistry
Indian Institute of Science, Bangalore
Prof. Hari’s research focuses on developing novel reaction strategies in organic chemistry to address complex synthetic challenges. The group harnesses the power of ring strain to drive new reactions, enabling the efficient construction of valuable molecular scaffolds. Additionally, they explore the synthesis and application of new diazo precursors for carbene chemistry, aiming to diversify privileged molecules through late-stage modifications. Their research also includes deconstructive functionalizations, transforming cyclic compounds into functionalized acyclic structures. These methodologies offer innovative approaches for sustainable and versatile synthesis in organic chemistry.
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Prof. Mahiuddin Baidya
Department of Chemistry
Indian Institute of Technology Madras
Prof. Baidya’s group conducts research across several cutting-edge areas of organic chemistry, including C-H activation, organocatalysis, and natural product synthesis. Their work also explores the fields of photo-redox catalysis and organofluorine chemistry, developing innovative approaches to enhance reactivity and selectivity in organic transformations. Additionally, the group focuses on synergistic catalysis, integrating multiple catalytic systems to create novel reaction pathways.
Prof. Modhu Sudan Maji
Department of Chemistry
Indian Institute of Technology Kharagpur
Prof. Maji’s group specializes in several innovative areas of organic chemistry, focusing on transition metal-catalyzed C-H activation, particularly using cobalt. The research also emphasizes synergistic and dual catalysis to enhance reaction efficiency and selectivity. A significant aspect of their work involves the design, synthesis, and application of tunable nanographene for advanced material applications. Their research extends to the total synthesis of alkaloids, specifically carbazoles, contributing valuable insights into the synthesis of complex natural products.
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Prof. Prabal Banerjee
Department of Chemistry
Indian Institute of Technology Ropar
Prof. Prabal Banerjee’s research group focuses on developing innovative methodologies for synthesizing heterocycles and carbocycles with novel structural scaffolds. The group harnesses ring strain to create highly reactive intermediates, successfully addressing the challenge of forming all-carbon quaternary centers, which serve as valuable precursors for various organic transformations and total synthesis. Asymmetric synthesis is another key area, where enantioenriched scaffolds are produced using different chiral induction methods and bifunctional organocatalysts to achieve high enantioselectivity. Additionally, the group explores electroorganic synthesis, utilizing electricity for green and sustainable redox transformations to develop diverse heterocyclic scaffolds. Through these diverse approaches.
Prof. Satpal Singh Badsara
Department of Chemistry
Institute of Science
Banaras Hindu University, Varanasi
Prof. Satpal Singh Badsara specializes in Electro-Organic Synthesis, advancing sustainable and innovative methodologies for organic transformations. His work emphasizes Transition Metal-Free Approaches and the development of Baylis-Hillman Chemistry, contributing to green and efficient synthetic strategies. His research offers impactful solutions to contemporary challenges in organic synthesis, promoting eco-friendly chemical processes.
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Department of Chemistry
Indian Institute of Technology Indore
Prof. Debayan Sarkar’s research group focuses on several innovative areas in organic chemistry, emphasizing halide catalysis and catalytic asymmetric dearomatization reactions to create complex molecules with high efficiency and selectivity. The group is dedicated to sustainable synthesis methods, including waste-to-fine chemical processes that minimize environmental impact. They explore visible light-catalyzed reactions and electrocatalytic organic transformations, utilizing green technologies to drive chemical reactions. Additionally, the group is involved in the total synthesis of natural products and important biomolecules, ensuring atom-economic synthetic transformations to maximize resource efficiency.
Vice-Chancellor, Biswa Bangla Biswabidyalay & Professor, Department of Chemistry, University College of Science & Technology, University of Calcutta
Prof. Dilip Kumar Maiti's research spans applied and academic chemistry, focusing on smart organic nanomaterials and advanced catalysis. His applied work includes designing organic and polymer-based nanomaterials for nanoelectronics, solar cells, energy storage, and medical sensing. Key innovations feature memory devices (RRAM, WORM), supercapacitors, and bioimaging materials for cancer therapy. He has also developed sensors for pollutants, explosives, and non-invasive diagnostics for cardiac, CNS, and cancer detection. Academically, his work advances sustainable catalysis, including C-H activation, photocatalysis, and nanocatalysis, alongside peptide, carbohydrate, and iodine chemistry. Computational studies enrich his insights into reaction mechanisms and modern chemistry innovations.
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Department of Chemistry
National Institute of Technology Patna
Dr. Rimas' group focuses on developing rapid and elegant strategies for synthesizing important biomolecules, particularly oligosaccharides and glycosides. Their work emphasizes the stereoselective generation of alpha/beta glycosides for the efficient synthesis of antibiotics, vaccines, and antitumor agents. Novel methods are applied to newly isolated glycans to conduct structure-activity relationship (SAR) studies, crucial for identifying their biological roles. The group also explores functionalized sugars, where hydroxyl groups are replaced by azides, amines, sulfates, and other substituents, as key building blocks in biological macromolecules. Designing synthetic methods for such sugar scaffolds is critical for producing known derivatives and creating novel bioactive compounds. Their approach utilizes C-H activation and visible light photocatalysis for the facile introduction of diverse functional groups.
Department of Chemical SciencesIndian Institute of Science Education and Resesrch Bhopal
Prof. Dimpy's research group focuses on three key areas: protein bioconjugation, bacterial c-di-GMP signaling, and the synthesis of heterocyclic molecules. In protein bioconjugation, they develop organic reactions that enable site-specific attachment of molecules to proteins under physiological conditions, which are crucial for cellular imaging, pull-down studies, and therapeutic strategies such as antibody-drug conjugates (ADCs) for cancer therapy. To combat antibiotic resistance, they target bacterial virulence pathways by focusing on the secondary messenger c-di-GMP, designing inhibitors to prevent biofilm formation and reduce bacterial resistance. Additionally, they are developing efficient methods for synthesizing biologically significant heterocycles, including pyrazoles, oxazoles, and piperidines, which serve as valuable scaffolds for drug design.
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School of Chemical Sciences,
National institute of science education and research, Bhubaneswar
Prof. Nagendra Kumar Sharma's research focuses on exploring the structural roles of modified DNA, RNA, and peptide analogues to enhance their biochemical activities through chemical structure optimization. DNA, RNA, and peptides are crucial biopolymers responsible for regulating metabolism, and structural disruptions in these molecules can lead to critical diseases, including cancer. By synthesizing modified analogues, Prof. Sharma aims to improve the functionality and therapeutic potential of these biomolecules. His work holds significant promise for pharmaceutical industries, particularly in the development of novel therapeutic drugs and related chemical entities to treat various diseases.
Department of Chemistry and Chemical Biology
Indian Institute of Technology (Indian School of Mines), Dhanbad
Prof. Parthasarathi's research group is engaged in advancing several key areas of chemistry, including catalysis and heterocyclic chemistry, medicinal chemistry, and chemical biology. The group focuses on the total synthesis of biologically active molecules, with an emphasis on affordable routes to FDA-approved drugs. Additionally, they work on the synthesis and characterization of drug impurities to improve pharmaceutical safety and efficacy.
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School of Chemistry
Indian Indian Institute of Science Education and Research Thiruvananthapuram
Prof. Kana's research group focuses on supramolecular chemistry, designing functional materials through non-covalent interactions. Their key areas include the development of novel organo- and hydrogelators for applications like self-healing optics and oil spill recovery. The group also advances topochemical reactions for solvent-free, catalyst-free synthesis of polymers and functional materials. Additionally, they work on natural product synthesis and methodology development, creating novel organic transformations and protecting group strategies for biologically active molecules. In the field of chemical biology, Professor Kana's group focuses on synthesizing biologically active compounds to study novel biological pathways. They are developing enzyme inhibitors for glycoconjugate assembly, studying protein glycosylation's structural effects, exploring phosphoinositide signaling through synthesis of phosphoinositols, and creating natural product-like libraries. These libraries aim to uncover new signaling pathways, identify enzyme modulators, and screen for antimicrobial, anticancer, and stem-cell differentiation activities, with a focus on developing kinase inhibitors, including selective anti-bacterial shikimate kinase inhibitors.
School of Chemical Sciences,
National institute of science education and research, Bhubaneswar
Prof. Chandra Sekhar Purohit's research focuses on the development of methods for synthesizing mechanically interlocked molecules, particularly higher-order [n]catenanes (with n ≥ 4). His work employs a metal-template strategy to precisely organize these molecules, with click chemistry playing a key role in the ring-closing reactions used to synthesize [2]catenanes. Subsequent functionalization steps further enable the construction of more complex catenanes. Prof. Purohit's research also explores the functionalization of catenanes and the modification of nucleobases, aiming to study their potential applications.
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Professor Jacobs’ research focuses on organic and supramolecular synthesis, particularly on bio-inspired functional materials. By developing π-conjugated systems with enhanced opto-electronic properties through supramolecular self-assembly, the work bridges small molecule and polymer synthesis with macroscopic material properties. Key areas include charge-transfer nanofibers, organic-inorganic hybrids, stimuli-responsive polymers, and dynamic helical assemblies. The research also explores the mechanistic aspects of supramolecular polymerization, advancing understanding of non-equilibrium processes. This research has significant implications for both basic and applied chemistry, contributing to the development of novel soft materials and high-efficiency organic optoelectronic devices.
Department of Organic Synthesis and Process Chemistry
CSIR-Indian Institute of Chemical Technology
Hyderabad
Dr. Chada Raji Reddy’s research focuses on advancing organic synthesis, natural product chemistry, and drug discovery. Key areas include innovative annulation reactions for polyaromatic hydrocarbons, total synthesis of bioactive natural products like alkaloids and macrolides, and the design of novel chemical entities targeting anticancer and CNS disorders. Additionally, his work emphasizes cost-effective, environmentally benign processes for APIs. Dr. Reddy’s contributions bridge cutting-edge synthetic chemistry with practical applications, inspiring advancements in medicinal and sustainable chemistry.
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Department of Chemistry
National Institute of Technology Manipur
Professor Chandi's research focuses on the synthesis of drug molecules for life-threatening diseases, with an emphasis on developing novel, greener methodologies. Key areas of interest include catalytic C-H activation, asymmetric catalysis, organocatalysis, and cooperative dual catalysis. By employing strategies like domino reactions, multicomponent reactions, and catalysis using efficient materials, the research aims to expand synthetic methodologies for creating complex molecules with fewer steps and less waste. The goal is to discover innovative methods that are widely applicable and environmentally sustainable, contributing to both individual and national health advancements through the development of more efficient drug synthesis techniques.
Prof. Easwar Srinivasan
Department of Chemistry
Central University of Rajasthan
Dr. Easwar’s research focuses on the development of novel synthetic methodologies and asymmetric catalysis. His team explores the Morita-Baylis-Hillman (MBH) reaction, utilizing MBH ketones for transformations like N'-alkyl substituted benzohydrazide synthesis, with potential insecticidal applications, and diamine-mediated dimerization to form methylene-bridged bis-1,3-dicarbonyl adducts. In asymmetric catalysis, their efforts include designing proline-based organocatalysts and bifunctional catalysts for enantioselective cascade cyclizations. Recent work involves developing a urea-tagged proline catalyst for asymmetric aldol reactions and studying the influence of ion-tag proximity in proline-mediated aldol additions, advancing strategies for constructing complex ring systems.
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Prof. Nitin T. Patil
Department of Chemistry
Indian Institute of Science Education and Research Bhopal
Prof. Nitin's research group is particularly fascinated by understanding the unique reactivities of gold complexes and their application in developing new and elegant transformations that are either previously unknown or difficult to achieve through conventional transition metal catalysis. By exploiting gold’s ‘distinctive’ reactivity, their research focuses on three principal areas of interest: cascade reactions based on carbophilic activation, oxidative gold catalysis, and combined gold/metal or gold/organocatalysis. Their efforts also aim to challenge the existing boundaries of reactivity and chemical space, exploring the potential applications of these transformations in both materials science and biological sciences.
Prof. V. Sridharan
School of Chemistry
University of Hyderabad
Professor Sridharan's research focuses on synthetic organic chemistry, emphasizing nucleopalladation-initiated cascade processes of alkynes and Lewis-acid/transition metal-catalyzed transformations. His work explores the generation of versatile building blocks through domino reactions and the application of microwave heating as a non-conventional energy source for organic synthesis. Additionally, he investigates electro-organic methods, aiming to simplify complex molecule synthesis via cascade transformations. By designing multifunctional reactants and studying their reactivity, his research seeks to develop new methodologies that produce biologically significant compounds while elucidating the underlying mechanisms of these innovative reactions.
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Prof. Satyendra K. Pandey
Department of Chemistry
Banaras Hindu University
Prof. Satyendra's research centers on the total synthesis of biologically active natural products, focusing on innovative synthetic methodologies involving diazo compounds, sulfoxonium ylides, and organocatalysis. His work aims to enhance the efficiency and selectivity of synthetic routes to complex molecules, contributing to the field of medicinal chemistry. By developing new strategies for synthesis, Professor Satyendra seeks to provide valuable insights into the creation of compounds with potential therapeutic applications, advancing the understanding of their biological significance.
Prof. Debasis Banerjee
Department of Chemistry
Indian Institute of Technology Roorkee
Prof. Debasis Banerjee's research group works in the cutting-edge areas of chemistry, including Organic Synthesis, Catalysis, and Enantioselective Catalysis. His work explores innovative strategies for C-H Bond Activation, advancing Organofluorine Chemistry, and developing sustainable solutions through Heterogeneous Catalysis, such as carbon dioxide conversion to biofuels and bio-polymer depolymerization. Prof. Banerjee is also pioneering approaches in Photoredox-Catalysis, Bio-catalysis, and Electrocatalysis, combining fundamental science with practical applications.
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Prof. S. S. V. Rama Sastry
Department of Chemistry
Indian Institute of Science Education and Research Mohali
Dr. S.S.V. Rama Sastry’s research focuses on developing synthetic methods that are environmentally friendly, experimentally simple, and economically viable, enabling access to complex biologically significant molecules. His work emphasizes novel stereoselective reactions, crucial for advancements in medicinal and natural product chemistry. By integrating principles of green chemistry and atom economy, he aims to create sustainable and efficient synthetic methodologies. These innovative approaches are applied to the total synthesis of bioactive natural products and pharmaceutically important compounds, contributing to drug discovery and addressing key challenges in sustainable and practical synthetic chemistry.
Department of Chemistry
Indian Institute of Technology Madras
​Prof. M. Jeganmohan's research focuses on C–H activation and asymmetric synthesis, with applications in natural product synthesis. Utilizing transition-metal catalysts like ruthenium and palladium, his work encompasses annulation, dehydrogenation, olefination, alkylation, oxidative coupling, and allylic coupling. These innovative methods enable efficient and selective construction of complex organic frameworks, addressing challenges in sustainable chemistry and advancing the synthesis of biologically significant molecules with precision and versatility.
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School of Chemical Sciences
Indian Institute of Technology Mandi
Prof. Subrata Ghosh's research focuses on the design and development of organic molecular and macromolecular materials for a wide range of applications, including biological imaging, OLEDs, and electronic fabrication. His work combines applied organic synthesis with in-depth studies of molecular reactivity and specialized organic transformations. Current research includes developing organic materials for OLEDs, organic-inorganic hybrid photoresists, long-range emissive dyes for fluorescence imaging, and anti-reflective coatings. Additionally, his group explores fundamental aspects of molecular materials and process development for industrially significant chemicals.
Programme
Technical Session Chair Persons
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Prof. INN Namboothiri, IIT Bombay
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Prof. G. Sekar, IIT Madras
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Prof. Jyotirmayee Dash, IACS Kolkata
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Prof. Alakesh Bisai, IISER Kolkata
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Prof. T. Punniyamurthy, IIT Guwahati
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Prof. Debabrata Maiti, IIT Bombay
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Prof. Akkattu T. Biju, IISc Bangalore
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Prof. S M S Chauhan, University of Delhi
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Prof. Biswarup Pathak, IIT Indore
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Prof. Brindaban C. Ranu, IACS Kolkata
POSTER PRESENTATION
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The width and height of the poster should be 3 and 4 feet respectively.
SUBMISSION
Abstract for poster presentation can be submitted through email at
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Jan 15, 2025.
The Venue
Kenilworth Resort
Utorda, Salcete, Goa, India
Ph. No: +91-8326698888
Kenilworth Resort & Spa is one of the most renowned luxury resorts in South Goa resorts, offering a perfect blend of serene comfort and upscale amenities. Favored by both leisure and corporate travelers, as well as international visitors, the resort provides accommodations, lush dining spaces, a fancy spa and a sprawling family-style swimming pool.
The resort is located in south Goa, approximately a 30-minute drive from the international airport and 10 minutes from Majorda Railway Junction. The resort is just a short walk from the renowned Utorda Beach and offers exclusive private access to the beach.
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Committees
Department of Chemistry
Indian Institute of Technology Indore, India
Office: +91-731-660-3343
Mobile: +91-7898-514-502
http://people.iiti.ac.in/~cvenkat/
​Email - cvenkat@iiti.ac.in
Prof. Dr. S. Peruncheralathan
School of Chemical Science
National Institute of Science Education
and Research, Bhubaneswar, India
Office: +91-674-249-4173
Mobile: +91-9583-161-023
Email - peru@niser.ac.in
Prof. Dr. Mainak Banerjee
Department of Chemistry
BITS-Pilani, K.K. Birla Goa Campus
Office: +91-832-2580347
Mobile: +91-9604056962
​Email - mainak@goa.bits-pilani.ac.in
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J.N. Moorthy, IISER Trivandrum/IIT Kanpur
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Vishal Rai, IISER Bhopal
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Debabrata Maiti, IIT Bombay
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Akkattu T. Biju, IISc Bangalore
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G. Sekar, IIT Madras
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Jyotirmayee Dash, IACS, Kolkata
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T. Punniyamurthy, IIT Guwahati
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Akhila K. Sahoo, Univ. of Hyderabad
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Debayan Sarkar, IIT Indore
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Alakesh Bisai, IISER Kolkata
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Dattatraya H. Dethe, IIT Kanpur
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Satyendra Pandey, BHU
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Bhaskar Raju, IIT Kanpur
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S. S. V. Rama Sastry, IISER Mohali
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Parthasarathi Das, IIT Dhanbad
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Amit Kumar IIT Patna
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Vibha Tandon, JNU
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S. Chandrasekaran, IISc Bangalore
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Srivari Chandrasekhar, IICT
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Vinod K Singh, IIT Kanpur
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INN Namboothiri, IIT Bombay
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Maya Shankar Singh, BHU
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Subi Jacob George, JNCASR
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Bhisma Patel, IIT Guwahati
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B. Gopalan, IICT
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K. S. Rangappa, Uni. of Mysore
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Apurba Dutta, University of Kansas, USA
