Chem R&D 2025 | Chemistry Research and Development Conference

<!DOCTYPE html> <html lang="en"> <head>  <title>Chem R&D 2025 | Chemistry Research and Development Conference | Chemistry Conference</title> <meta name="keywords" content="Chemistry conference, advanced chemistry conference, chemistry research conference, Chemistry research and development conference, chemistry meeting usa, chemistry conference boston, chemistry conference speakers, chemistry conference Speakers" /> <meta name="description" content="Meet Inspiring Speakers at our Advances in Chemistry Research and Development Conference." /> <meta charset="UTF-8"> <meta http-equiv="X-UA-Compatible" content="IE=Edge"> <meta name="viewport" content="width=device-width, initial-scale=1, maximum-scale=1"> <link rel="shortcut icon" href="images/favicon.png" type="image/x-icon"> <link rel="stylesheet" href="css/animate.css"> <link rel="stylesheet" href="css/font-awesome.min.css"> <link rel="stylesheet" href="css/owl.theme.css"> <link rel="stylesheet" href="css/owl.carousel.css">  <link rel="stylesheet" href="css/style.css"> <link href="https://cdnjs.cloudflare.com/ajax/libs/font-awesome/6.4.0/css/all.min.css" rel="stylesheet"> <link href="https://cdn.jsdelivr.net/npm/bootstrap@5.3.3/dist/css/bootstrap.min.css" rel="stylesheet" integrity="sha384-QWTKZyjpPEjISv5WaRU9OFeRpok6YctnYmDr5pNlyT2bRjXh0JMhjY6hW+ALEwIH" crossorigin="anonymous"> <script src="https://cdn.jsdelivr.net/npm/bootstrap@5.3.3/dist/js/bootstrap.bundle.min.js" integrity="sha384-YvpcrYf0tY3lHB60NNkmXc5s9fDVZLESaAA55NDzOxhy9GkcIdslK1eN7N6jIeHz" crossorigin="anonymous"></script>  <link href='https://fonts.googleapis.com/css?family=Poppins:400,500,600' rel='stylesheet' type='text/css'>  <script async src="https://www.googletagmanager.com/gtag/js?id=G-ZQC5Q7141Y"></script> <script> window.dataLayer = window.dataLayer || []; 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Alvarez</h5> <p class="mb-2">Universidad de Valladolid, Spain</p> <img class="img-fluid w-100 mb-4" src="images/speakers/Celedonio-Alvarezr.jpg" alt="Celedonio M. Alvarez"> <p class="mb-2"><strong>Title: </strong>Supramolecular Interactions of Non-Planar Polyaromatic Compounds with fullerenes</p> </div> </div> <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5>Dr. Mario Waser</h5> <p class="mb-2">Johannes Kepler University Linz, Austria</p> <img class="img-fluid w-100 mb-4" src="images/speakers/Mario-Waser.jpg" alt="Mario Waser"> <p class="mb-2"><strong>Title: </strong>Chiral Lewis Base Organocatalysis</p> </div> </div> <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5>Dr. Johannes Reynisson</h5> <p class="mb-2">Keele University, UK</p> <img class="img-fluid w-100 mb-4" src="images/speakers/Johannes-Reynisson.jpg" alt="Johannes Reynisson"> <p class="mb-2"><strong>Title: </strong> Defining Known Drug Space using DFT. One-electron oxidation and reduction</p> </div> </div> <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5>Dr. Samer Gnaim</h5> <p class="mb-2">Weizmann Institute of Science, Israel</p> <img class="img-fluid w-100 mb-4" src="images/speakers/Samer-Gnaim.jpg" alt="Samer Gnaim"> <p class="mb-2"><strong>Title: </strong>Reactive boron species: Formation and reactivity in synthesis</p> </div> </div> <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5>Dr. Martin Nielsen</h5> <p class="mb-2">Technical University of Denmark, Denmark</p> <img class="img-fluid w-100 mb-4" src="images/speakers/Martin-Nielsen.jpg" alt="Martin Nielsen"> <p class="mb-2"><strong>Title: </strong>Homogeneous Catalysis for Sustainable Chemistry</p> </div> </div> <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5>Dr. Fedor Miloserdov</h5> <p class="mb-2">Wageningen University, Netherlands</p> <img class="img-fluid w-100 mb-4" src="images/speakers/Fedor-Miloserdov.jpg" alt="Fedor Miloserdov"> <p class="mb-2"><strong>Title: </strong>TBA</p> </div> </div> <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5>Dr. Aitor Maestro</h5> <p class="mb-2">University of Graz, Austria</p> <img class="img-fluid w-100 mb-4" src="images/speakers/Aitor-Maestro.jpg" alt="Aitor Maestro"> <p class="mb-2"><strong>Title: </strong>TBA</p> </div> </div> <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5>Dr. Jingjing Sun</h5> <p class="mb-2">University of Nebraska Medical Center, USA</p> <img class="img-fluid w-100 mb-4" src="images/speakers/Jingjing-Sun.jpg" alt="Jingjing Sun"> <p class="mb-2"><strong>Title: </strong>Nucleoside analogs conjugated prodrug polymers as nanotherapeutic</p> </div> </div>  <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5 style="font-size: 1.1rem;">Dr. Kirill Monakhov</h5> <p class="mb-2">Leibniz Institute for Surface Modification (IOM), Germany</p> <img class="img-fluid w-100 mb-4" src="images/speakers/Kirill-Monakhov.jpg" alt="Kirill Monakhov"> <p class="mb-2"><strong>Title: </strong>Polyoxometalates – Molecular Brains for Future Electronics</p> </div> </div> <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5 style="font-size: 1.1rem;">Dr. Maksim Oseka</h5> <p class="mb-2">Tallinn University of Technology<br />Estonia</p> <img class="img-fluid w-100 mb-4" src="images/speakers/Maksim-Oseka.jpg" alt="Maksim Oseka"> <p class="mb-2"><strong>Title: </strong>TBA</p> </div> </div> <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5 style="font-size: 1.1rem;">Dr. Webster L. Santos</h5> <p class="mb-2">Virginia Polytechnic Institute and State University, USA</p> <img class="img-fluid w-100 mb-4" src="images/speakers/Webster-Santos.jpg" alt="Webster L. Santos"> <p class="mb-2"><strong>Title: </strong>Drugging Sphingosine-1-phosphate Transporters: Development and Mechanism of Action</p> </div> </div> <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5 style="font-size: 1.1rem;">Dr. Dorian Didier</h5> <p class="mb-2">Technical University of Darmstadt<br />Germany</p> <img class="img-fluid w-100 mb-4" src="images/speakers/Dorian-Didier.jpg" alt="Dorian Didier"> <p class="mb-2"><strong>Title: </strong>TBA</p> </div> </div> <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5 style="font-size: 1.1rem;">Dr. Werner R. Thiel</h5> <p class="mb-2">RPTU Kaiserslautern-Landau, Germany</p> <img class="img-fluid w-100 mb-4" src="images/speakers/Werner-Thiel.jpg" alt="Werner R. Thiel"> <p class="mb-2"><strong>Title: </strong>Janus-type Materials as Heterogeneous Catalysts </p> </div> </div> <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5 style="font-size: 1.1rem;">Dr. Aiichiro Nagaki</h5> <p class="mb-2">Hokkaido University, Japan</p> <img class="img-fluid w-100 mb-4" src="images/speakers/Aiichiro-Nagaki.jpg" alt="Aiichiro Nagaki"> <p class="mb-2"><strong>Title: </strong>Flash Synthetic Chemistry Guided by Flow Microreactor Research</p> </div> </div> <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5 style="font-size: 1.1rem;">Dr. Doreen Mollenhauer</h5> <p class="mb-2">Justus-Liebig-Universität Gießen, Germany</p> <img class="img-fluid w-100 mb-4" src="images/speakers/Doreen-Mollenhauer.jpg" alt="Doreen Mollenhauer"> <p class="mb-2"><strong>Title: </strong>TBA</p> </div> </div> <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5 style="font-size: 1.1rem;">Dr. John Torkelson</h5> <p class="mb-2">Northwestern University, USA</p> <img class="img-fluid w-100 mb-4" src="images/speakers/John-Torkelson.jpg" alt="John Torkelson"> <p class="mb-2"><strong>Title: </strong>Sustainable, recyclable, non-isocyanate polythiourethane covalent adaptable networks from biowaste: Performance, extrudability, refoamability, and circularity</p> <br> </div> </div> <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5 style="font-size: 1.1rem;">Dr. Sandrine Gerber</h5> <p class="mb-2">EPFL, Switzerland</p> <img class="img-fluid w-100 mb-4" src="images/speakers/Sandrine-Gerber.jpg" alt="Sandrine Gerber"> <p class="mb-4"><strong>Title: </strong>Multifunctional Harmonic Nanoparticles for Theranostic Applications</p> <br> </div> </div> <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5 style="font-size: 1rem;">Dr. Magnus Johansson</h5> <p class="mb-3">BioPharmaceuticals R&D, AstraZeneca, Sweden</p> <img class="img-fluid w-100 mb-4" src="images/speakers/Magnus-Johansson.jpg" alt="Dr. Magnus Johansson"> <p class="mb-4"><strong>Title: </strong>TBA</p> <br> </div> </div> <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5 style="font-size: 1rem;">Dr. Gregori Ujaque</h5> <p class="mb-3">Universitat Autònoma de Barcelona (UAB), Spain</p> <img class="img-fluid w-100 mb-4" src="images/speakers/Gregori-Ujaque.jpg" alt="Dr. Gregori Ujaque"> <p class="mb-4"><strong>Title: </strong>Exploring the Binding and Reactivity on Metal Organic Cages</p> <br> </div> </div> <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5 style="font-size: 1rem;">Dr. Amy Stevens</h5> <p class="mb-3">University of Saskatchewan, Canada</p> <img class="img-fluid w-100 mb-4" src="images/speakers/Amy-Stevens.jpg" alt="Dr. Amy Stevens"> <p class="mb-4"><strong>Title: </strong>Controlling Excimers in Pyrenes</p> <br> </div> </div> <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5 style="font-size: 1rem;">Dr. Anna Vanluchene</h5> <p class="mb-3">Ghent University, Belgium</p> <img class="img-fluid w-100 mb-4" src="images/speakers/Anna-Vanluchene.jpg" alt="Dr. Anna Vanluchene"> <p class="mb-4"><strong>Title: </strong>Electrochemical Trifluoromethylation of Enamides in a Microflow Cell</p> <br> </div> </div> <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5 style="font-size: 1rem;">Dr. Philipp Uhl</h5> <p class="mb-3">Ruprecht-Karls-University Heidelberg, Germany</p> <img class="img-fluid w-100 mb-4" src="images/speakers/Philipp.jpg" alt="Philipp Uhl"> <p class="mb-4"><strong>Title: </strong>ROVANCE – Resistance Overcoming Antibiotics New Chemical Entities: A Platform Technology to Overcome Bacterial Resistance</p> <br> </div> </div> <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5 style="font-size: 1rem;">Dr. Milan Vrabel</h5> <p class="mb-3">Institute of Organic Chemistry and Biochemistry (IOCB), Czech Academy of Sciences, Czech Republic</p> <img class="img-fluid w-100 mb-4" src="images/speakers/Milan-Vrabel.jpg" alt="Dr. Milan Vrabel"> <p class="mb-4"><strong>Title: </strong>Bioorthogonal Reactions of Triazinium Salts</p> <br> </div> </div> <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5 style="font-size: 1rem;">Dr. Giuliano Cesar Clososki</h5> <p class="mb-3">University of Sao Paulo - USP, Brazil</p> <img class="img-fluid w-100 mb-4" src="images/speakers/Giuliano-CC.jpg" alt="Dr. Giuliano Cesar Clososki"> <p class="mb-4"><strong>Title: </strong>Navigating the chemical space around bioactive scaffolds with selective synthetic tools</p> <br> </div> </div> <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5 style="font-size: 1rem;">Dr. Jack Geremia</h5> <p class="mb-3">Matterworks AI, USA</p> <img class="img-fluid w-100 mb-4" src="images/speakers/Jack-Geremia.jpg" alt="Dr. Jack Geremia"> <p class="mb-4"><strong>Title: </strong>The future of machine learning for interpreting unstructured LC-MS data for molecular omics</p> <br> </div> </div> <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5 style="font-size: 1rem;">Dr. Vassiliev Valery P</h5> <p class="mb-3">Lomonosov Moscow State University, Russia</p> <img class="img-fluid w-100 mb-4" src="images/speakers/Vassiliev-Valery.jpg" alt="Dr. Vassiliev Valery P"> <p class="mb-4"><strong>Title: </strong>Optimizing the heat capacities of sphalerite and wurtzite phases as single systems</p> <br> </div> </div> <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5 style="font-size: 1rem;">Dr. Masahiro Miura</h5> <p class="mb-3">Osaka University, Japan</p> <img class="img-fluid w-100 mb-4" src="images/speakers/Masahiro-Miura.jpg" alt="Dr. Masahiro Miura"> <p class="mb-4"><strong>Title: </strong>Catalytic Synthesis of Polycyclic Heteroaromatics through C-H Bond Activation</p> <br> </div> </div> <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5 style="font-size: 1rem;">Dr. Carita Kvarnstrom</h5> <p class="mb-3">University of Turku, Finland</p> <img class="img-fluid w-100 mb-4" src="images/speakers/Carita-Kvarnstrom.jpg" alt="Dr. Carita Kvarnstrom"> <p class="mb-4"><strong>Title: </strong>Bio-Based Reduced Graphene Oxide in Electrocatalyst Materials</p> <br> </div> </div> <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5 style="font-size: 1rem;">Dr. Gaurav Sharma</h5> <p class="mb-3">Eigen Sciences LLC, USA</p> <img class="img-fluid w-100 mb-4" src="images/speakers/Gaurav-Sharma.jpg" alt="Dr. Gaurav Sharma"> <p class="mb-4"><strong>Title: </strong>Computational Simulation of First-in-Class Aptamer Mediated Tau Protein Inhibition in Alzheimer’s Disease</p> <br> </div> </div> <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5 style="font-size: 1rem;">Dr. Benesh Joseph</h5> <p class="mb-3">Free University of Berlin, Germany</p> <img class="img-fluid w-100 mb-4" src="images/speakers/Benesh-Joseph.jpg" alt="Dr. Benesh Joseph"> <p class="mb-4"><strong>Title: </strong>Observation of Membrane Protein Drug Targets in their Native Surroundings</p> <br> </div> </div> <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5 style="font-size: 1rem;">Dr. Daniela A. Wilson</h5> <p class="mb-3">Radboud University Nijmegen, Netherlands</p> <img class="img-fluid w-100 mb-4" src="images/speakers/Daniela-Wilson.jpg" alt="Dr. Daniela A. Wilson"> <p class="mb-4"><strong>Title: </strong>TBA</p> <br> </div> </div> <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5 style="font-size: 1rem;">Dr. Massimiliano Curcio</h5> <p class="mb-0">University of Bologna, Italy</p> <img class="img-fluid w-100 mb-3" src="images/speakers/Massimiliano-Curcio.jpg" alt="Dr. Massimiliano Curcio"> <p class="mb-0"><strong>Title: </strong>TBA</p> <br> </div> </div> <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5 style="font-size: 1rem;">Dr. Debasish Haldar</h5> <p class="mb-0">Indian Institute of Science Education and Research Kolkata, India</p> <img class="img-fluid w-100 mb-3" src="images/speakers/Debasish-Haldar.jpg" alt="Dr. Debasish Haldar"> <p class="mb-0"><strong>Title: </strong>Supramolecular gel as platform for complex organic synthesis</p> <br> </div> </div> <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5 style="font-size: 1rem;">Dr. Michael Adams</h5> <p class="mb-0">Kwantlen Polytechnic University, Canada</p> <img class="img-fluid w-100 mb-3" src="images/speakers/Michael-Adams.jpg" alt="Dr. Michael Adams"> <p class="mb-0"><strong>Title: </strong>TBA</p> <br> </div> </div> <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5 style="font-size: 1rem;">Dr. Haritha Mambatta</h5> <p class="mb-0">CRM2, France</p> <img class="img-fluid w-100 mb-3" src="images/speakers/Haritha-Mambatta.jpg" alt="Dr. Haritha Mambatta"> <p class="mb-0"><strong>Title: </strong>Unveiling Drug Discovery Insights through Molecular Electrostatic Potential Analysis</p> <br> </div> </div> </div> </div> </div> <h3 class="my-4 text-center text-primary"><img src="images/heading.png" alt="CHEM R&D 2025" style="width: auto;" class="tubeicon" /> Poster Presentations</h3> <div class="offset-top-20 offset-lg-top-30"> <div class="col-lg-12"> <div class="row g-4"> <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5 style="font-size: 1rem;">Dr. Veronika Sachtova</h5> <p class="mb-3">Institute of Organic Chemistry and Biochemistry (IOCB), Czech Academy of Sciences, Czech Republic</p> <img class="img-fluid w-100 mb-4" src="images/speakers/Veronika-Sachtova.jpg" alt="Dr. Veronika Sachtova"> <p class="mb-4"><strong>Title: </strong>New Fluorogenic Triazinium Probes for Bioimaging</p> <br> </div> </div> <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5 style="font-size:0.9rem;">Mr. Samantha P. Disanayaka M.</h5> <p class="mb-3">University of Saskatchewan, Canada</p> <img class="img-fluid w-100 mb-4" src="images/speakers/Samantha.jpg" alt="Mr. Samantha P. Disanayaka M.,"> <p class="mb-4"><strong>Title: </strong>Understanding the Impact of Five-Membered Ring Substitutions on the Spectroscopic and Photophysical Properties of Azulenes</p> <br> </div> </div> <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5 style="font-size:0.9rem;">Ms. Delaram Ghofrani</h5> <p class="mb-3">Politecico di Milano, Italy</p> <img class="img-fluid w-100 mb-4" src="images/speakers/Delaram-Ghofrani.jpg" alt="Ms. Delaram Ghofrani"> <p class="mb-4"><strong>Title: </strong>Revolutionizing Food Packaging: The Role of Metal-Organic Frameworks (MOFs) in Extending Shelf-Life and Sustainability</p> <br> </div> </div> <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5 style="font-size:0.9rem;">Dr. Meshari Alotaibi</h5> <p class="mb-3">Taif University, Saudi Arabia</p> <img class="img-fluid w-100 mb-4" src="images/speakers/Meshari-Alotaibi.jpg" alt="Dr. Meshari Alotaibi"> <p class="mb-4"><strong>Title: </strong>Resistive switching of pure TiO2 and Cr doped TiO2 ceramics</p> <br> </div> </div> </div> </div> </div> <h3 class="my-4 text-center text-primary"><img src="images/heading.png" alt="CHEM R&D 2025" style="width: auto;" class="tubeicon" />Young Researchers Forum</h3> <div class="offset-top-20 offset-lg-top-30"> <div class="col-lg-12"> <div class="row g-4"> <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5 style="font-size: 1rem;">Mr. Hao Xu</h5> <p class="mb-3">University of Toronto, Canada</p> <img class="img-fluid w-100 mb-4" src="images/speakers/Hao-Xu.jpg" alt="Mr. Hao Xu"> <p class="mb-4"><strong>Title: </strong>Recyclable Terthiophenes for Synthesizing Precision Conjugated Oligomers</p> <br> </div> </div>  <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5 style="font-size: 1rem;">Ms. Jovana Stanojkovic</h5> <p class="mb-3">Nanyang Technological University Singapore</p> <img class="img-fluid w-100 mb-4" src="images/speakers/Jovana-Stanojkovic.jpg" alt="Ms. Jovana Stanojkovic"> <p class="mb-4"><strong>Title: </strong>Mechanochemical Synthesis and Regioselective Functionalization of Curved Nanographenes</p> <br> </div> </div> <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5 style="font-size: 1rem;">Mr. Surendra Kumar</h5> <p class="mb-3">Indian Institute of Information Technology India</p> <img class="img-fluid w-100 mb-4" src="images/speakers/Surendra-Kumar.jpg" alt="Mr. Surendra Kumar"> <p class="mb-4"><strong>Title: </strong>Odor Classification: Exploring Feature Performance and Imbalanced Data Learning Techniques</p> <br> </div> </div> <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5 style="font-size: 1rem;">Ms. Priya Sagar</h5> <p class="mb-3">Wroclaw University Of Science and Technology, Poland</p> <img class="img-fluid w-100 mb-4" src="images/speakers/no-image.jpg" alt="Ms. Priya Sagar"> <p class="mb-4"><strong>Title: </strong>A Comprehensive Study of Spider-Web Applications Roles in the Field of Biomedical Sciences</p> <br> </div> </div> <div class="col-lg-3 col-md-6 wow fadeInUp" data-wow-delay="0.1s"> <div class="team-item"> <h5 style="font-size: 1rem;">Ms. Teddy Majorine Nanyonjo</h5> <p class="mb-3">Kampala International University<br/>Uganda</p> <img class="img-fluid w-100 mb-4" src="images/speakers/no-image.jpg" alt="Ms. Teddy Majorine Nanyonjo"> <p class="mb-4"><strong>Title: </strong>Adsorption and Desorption of Microplastics using Magnetized Banana Peel Biochar</p> <br> </div> </div>  </div> </div> </div> <h3 class="my-5 text-center text-primary"><img src="images/heading.png" alt="CHEM R&D 2025" style="width: auto;" class="tubeicon" />"Virtual Talks" (on April 30, 2025)</h3> <div class="offset-top-20 offset-lg-top-30"> <div class="col-lg-12"> <div class="row g-4"> <div class="col-lg-2 col-md-2"></div> <div class="col-lg-4 col-md-4"> <h3 class="text-center text-primary mb-3">Plenary Speaker</h3> <div class="card shake text-center p-3 mb-4 pb-4"> <div class="card-body"> <img src="images/speakers/Jean-Marie-Lehn.jpg" class="img-fluid rounded-circle mb-3 border border-3 border-dark" alt="Prof. Dr. Jean-Marie Lehn"> <h5 class="card-title">Prof. Dr. Jean-Marie Lehn</h5> <p class="mb-2">University of Strasbourg, France (Nobel Laureate in Chemistry -1987)</p> <p class="small"><strong>Title:</strong> TBA</p> </div> </div> </div> <div class="col-lg-4 col-md-4"> <h3 class="text-center text-primary mb-3">Keynote Speaker</h3> <div class="card shake text-center p-2"> <div class="card-body"> <img src="images/speakers/Anna-Hehn.jpg" class="img-fluid rounded-circle mb-3 border border-3 border-dark" alt="Prof. Dr. Anna Hehn"> <h5 class="card-title">Prof. Dr. Anna Hehn</h5> <p class="mb-2">Christian-Albrechts-University Kiel, Germany</p> <p class="small"><strong>Title:</strong> Extending the tool set for excited states in solids - from static excited-state properties to non-adiabatic dynamics</p> </div> </div> </div> <div class="col-lg-2 col-md-2"></div> <div class="col-lg-4 col-md-6"> <div class="card custom-card shake text-center p-3"> <div class="card-body"> <h5 class="card-title">Dr. Omer Markovitch</h5> <p class="mb-2">University of Lisbon, Portugal</p> <p class="small"><strong>Title:</strong> Emergent properties of networks of supramolecular polymerization</p> </div> </div> </div> <div class="col-lg-4 col-md-6"> <div class="card custom-card shake text-center p-3"> <div class="card-body"> <h5 class="card-title">Dr. Muhammad Jbara</h5> <p class="mb-2">Tel Aviv University, Israel</p> <p class="small"><strong>Title:</strong> Protein functionalization via orthogonal organometallic chemistry</p> </div> </div> </div> <div class="col-lg-4 col-md-6"> <div class="card custom-card shake text-center p-3"> <div class="card-body"> <h5 class="card-title">Dr. Yu Kawamata</h5> <p class="mb-2">Scripps Research, USA</p> <p class="small"><strong>Title:</strong> Synthetic Electrochemistry: Leaping Into a New Era</p> </div> </div> </div> <div class="col-lg-4 col-md-6"> <div class="card custom-card shake text-center p-3"> <div class="card-body"> <h5 class="card-title">Dr. Gregory Arzoumanidis</h5> <p class="mb-2">Oakwood Consulting, Inc; USA</p> <p class="small"><strong>Title:</strong> Autonomous Photocatalytic Production of C₆–C₁₇ Oxygenated Hydrocarbons via Direct Atmospheric CO₂ and H₂O Capture Using Organotitanium Complexes: The Role of Hydroxyl Radicals</p> </div> </div> </div> <div class="col-lg-4 col-md-6"> <div class="card custom-card shake text-center p-3"> <div class="card-body"> <h5 class="card-title">Mr. David Ferguson</h5> <p class="mb-2">Howard University, USA</p> <p class="small"><strong>Title:</strong> Design of Partial Agonists of ADAMTS Metalloproteinases as Therapeutics for Neurodegenerative Diseases</p> </div> </div> </div> <div class="col-lg-4 col-md-6"> <div class="card custom-card shake text-center p-3"> <div class="card-body"> <h5 class="card-title">Mr. Omri Shelef</h5> <p class="mb-2">Tel-Aviv University, Israel</p> <p class="small"><strong>Title:</strong> Enzymatic Activity Profiling Using an Ultra-Sensitive Array of Chemiluminescent Probes for Bacterial Classification and Characterization</p> </div> </div> </div> <div class="col-lg-4 col-md-6"> <div class="card custom-card shake text-center p-3"> <div class="card-body"> <h5 class="card-title">Mrs. Parimita Kalita</h5> <p class="mb-2">The Assam Kaziranga University, India</p> <p class="small"><strong>Title:</strong> Advancements in PLGA-Based Polymeric Nanoparticles for Antidiabetic Applications: A Focus on Voglibose Delivery Systems</p> </div> </div> </div> <div class="col-lg-4 col-md-6"> <div class="card custom-card shake text-center p-3"> <div class="card-body"> <h5 class="card-title">Mr. Ranajit Nath</h5> <p class="mb-2">The Assam Kaziranga University, India</p> <p class="small"><strong>Title:</strong> Prediction of phytoactive compounds against neuro inflammatory and inflammatory receptor by implementing network pharmacology</p> </div> </div> </div> <div class="col-lg-4 col-md-6"> <div class="card custom-card shake text-center p-3"> <div class="card-body"> <h5 class="card-title">Dr. Ayoub Boualli</h5> <p class="mb-2">Cadi Ayyad University, Morocco</p> <p class="small"><strong>Title:</strong> Contribution to the valorization of Tetraclinis articulata (thuya) wood sawdust: hemisynthesis and anticancer activity of natural and hemisynthetic products</p> </div> </div> </div> <div class="col-lg-4 col-md-6"> <div class="card custom-card shake text-center p-3"> <div class="card-body"> <h5 class="card-title">Dr. Taame Abraha Berhe</h5> <p class="mb-2">Adigrat University, Ethiopia</p> <p class="small"><strong>Title:</strong> Advances in Halide Perovskite Photovoltaic Research and Development</p> </div> </div> </div> </div> </div> </div> </div> </div> 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// $("#SupramolecularChemistry").hide(); // $("#TheoreticalComputationalChemistry").hide(); // $("#FoodChemistryBiochemistry").hide(); // $("#ForensicChemistry").hide(); // $("#GreenChemistrySustainability").hide(); // $("#EnvironmentalGeoChemistry").hide(); // $("#Photochemistry").hide(); // $("#ChemicalKineticsCatalysis").hide(); // $("#Petrochemistry").hide(); // $("#Thermochemistry").hide(); // $("#PureAppliedChemistry").hide(); // $("#ElectrochemistryCorrosion").hide(); // $("#ChemistryofEnergy").hide(); // $("#ChemistryofTransitionElements").hide(); // $("#NaturalProductsChemistry").hide(); // $("#ChemistryinClinicalResearchDiagnosticsNanotherapeutics").hide(); // $("#EmergingTrendsFutureScopeofChemistry").hide(); // $("#subsessions").removeAttr("style"); // } else if ($(this).val() == "Pharmaceutical and Medicinal Chemistry") { // $("#Organic").hide(); // $("#InorganicChemistryBiochemistry").hide(); // $("#PhysicalChemistry").hide(); // $("#AnalyticalBioanalyticalChemistry").hide(); // $("#PharmaceuticalMedicinalChemistry").removeAttr("style"); // $("#PolymerChemistry").hide(); // $("#NuclearRadioChemistry").hide(); // $("#NanoScienceMaterialsChemistry").hide(); // $("#ChemicalEngineeringIndustrialChemistry").hide(); // $("#SurfaceChemistry").hide(); // $("#SupramolecularChemistry").hide(); // $("#TheoreticalComputationalChemistry").hide(); // $("#FoodChemistryBiochemistry").hide(); // $("#ForensicChemistry").hide(); // $("#GreenChemistrySustainability").hide(); // $("#EnvironmentalGeoChemistry").hide(); // $("#Photochemistry").hide(); // $("#ChemicalKineticsCatalysis").hide(); // $("#Petrochemistry").hide(); // $("#Thermochemistry").hide(); // $("#PureAppliedChemistry").hide(); // $("#ElectrochemistryCorrosion").hide(); // $("#ChemistryofEnergy").hide(); // $("#ChemistryofTransitionElements").hide(); // $("#NaturalProductsChemistry").hide(); // $("#ChemistryinClinicalResearchDiagnosticsNanotherapeutics").hide(); // $("#EmergingTrendsFutureScopeofChemistry").hide(); // $("#subsessions").removeAttr("style"); // } else if ($(this).val() == "Polymer Chemistry") { // $("#Organic").hide(); // $("#InorganicChemistryBiochemistry").hide(); // $("#PhysicalChemistry").hide(); // $("#AnalyticalBioanalyticalChemistry").hide(); // $("#PharmaceuticalMedicinalChemistry").hide(); // $("#PolymerChemistry").removeAttr("style"); // $("#NuclearRadioChemistry").hide(); // $("#NanoScienceMaterialsChemistry").hide(); // $("#ChemicalEngineeringIndustrialChemistry").hide(); // $("#SurfaceChemistry").hide(); // $("#SupramolecularChemistry").hide(); // $("#TheoreticalComputationalChemistry").hide(); // $("#FoodChemistryBiochemistry").hide(); // $("#ForensicChemistry").hide(); // $("#GreenChemistrySustainability").hide(); // $("#EnvironmentalGeoChemistry").hide(); // $("#Photochemistry").hide(); // $("#ChemicalKineticsCatalysis").hide(); // $("#Petrochemistry").hide(); // $("#Thermochemistry").hide(); // $("#PureAppliedChemistry").hide(); // $("#ElectrochemistryCorrosion").hide(); // $("#ChemistryofEnergy").hide(); // $("#ChemistryofTransitionElements").hide(); // $("#NaturalProductsChemistry").hide(); // $("#ChemistryinClinicalResearchDiagnosticsNanotherapeutics").hide(); // $("#EmergingTrendsFutureScopeofChemistry").hide(); // $("#subsessions").removeAttr("style"); // } else if ($(this).val() == "Nuclear and Radio Chemistry") { // $("#Organic").hide(); // $("#InorganicChemistryBiochemistry").hide(); // $("#PhysicalChemistry").hide(); // $("#AnalyticalBioanalyticalChemistry").hide(); // $("#PharmaceuticalMedicinalChemistry").hide(); // $("#PolymerChemistry").hide(); // $("#NuclearRadioChemistry").removeAttr("style"); // $("#NanoScienceMaterialsChemistry").hide(); // $("#ChemicalEngineeringIndustrialChemistry").hide(); // $("#SurfaceChemistry").hide(); // $("#SupramolecularChemistry").hide(); // $("#TheoreticalComputationalChemistry").hide(); // $("#FoodChemistryBiochemistry").hide(); // $("#ForensicChemistry").hide(); // $("#GreenChemistrySustainability").hide(); // $("#EnvironmentalGeoChemistry").hide(); // $("#Photochemistry").hide(); // $("#ChemicalKineticsCatalysis").hide(); // $("#Petrochemistry").hide(); // $("#Thermochemistry").hide(); // $("#PureAppliedChemistry").hide(); // $("#ElectrochemistryCorrosion").hide(); // $("#ChemistryofEnergy").hide(); // $("#ChemistryofTransitionElements").hide(); // $("#NaturalProductsChemistry").hide(); // $("#ChemistryinClinicalResearchDiagnosticsNanotherapeutics").hide(); // $("#EmergingTrendsFutureScopeofChemistry").hide(); // $("#subsessions").removeAttr("style"); // } else if ($(this).val() == "Nano Science and Materials Chemistry") { // $("#Organic").hide(); // $("#InorganicChemistryBiochemistry").hide(); // $("#PhysicalChemistry").hide(); // $("#AnalyticalBioanalyticalChemistry").hide(); // $("#PharmaceuticalMedicinalChemistry").hide(); // $("#PolymerChemistry").hide(); // $("#NuclearRadioChemistry").hide(); // $("#NanoScienceMaterialsChemistry").removeAttr("style"); // $("#ChemicalEngineeringIndustrialChemistry").hide(); // $("#SurfaceChemistry").hide(); // $("#SupramolecularChemistry").hide(); // $("#TheoreticalComputationalChemistry").hide(); // $("#FoodChemistryBiochemistry").hide(); // $("#ForensicChemistry").hide(); // $("#GreenChemistrySustainability").hide(); // $("#EnvironmentalGeoChemistry").hide(); // $("#Photochemistry").hide(); // $("#ChemicalKineticsCatalysis").hide(); // $("#Petrochemistry").hide(); // $("#Thermochemistry").hide(); // $("#PureAppliedChemistry").hide(); // $("#ElectrochemistryCorrosion").hide(); // $("#ChemistryofEnergy").hide(); // $("#ChemistryofTransitionElements").hide(); // $("#NaturalProductsChemistry").hide(); // $("#ChemistryinClinicalResearchDiagnosticsNanotherapeutics").hide(); // $("#EmergingTrendsFutureScopeofChemistry").hide(); // $("#subsessions").removeAttr("style"); // } else if ($(this).val() == "Chemical Engineering and Industrial Chemistry") { // $("#Organic").hide(); // $("#InorganicChemistryBiochemistry").hide(); // $("#PhysicalChemistry").hide(); // $("#AnalyticalBioanalyticalChemistry").hide(); // $("#PharmaceuticalMedicinalChemistry").hide(); // $("#PolymerChemistry").hide(); // $("#NuclearRadioChemistry").hide(); // $("#NanoScienceMaterialsChemistry").hide(); // $("#ChemicalEngineeringIndustrialChemistry").removeAttr("style"); // $("#SurfaceChemistry").hide(); // $("#SupramolecularChemistry").hide(); // $("#TheoreticalComputationalChemistry").hide(); // $("#FoodChemistryBiochemistry").hide(); // $("#ForensicChemistry").hide(); // $("#GreenChemistrySustainability").hide(); // $("#EnvironmentalGeoChemistry").hide(); // $("#Photochemistry").hide(); // $("#ChemicalKineticsCatalysis").hide(); // $("#Petrochemistry").hide(); // $("#Thermochemistry").hide(); // $("#PureAppliedChemistry").hide(); // $("#ElectrochemistryCorrosion").hide(); // $("#ChemistryofEnergy").hide(); // $("#ChemistryofTransitionElements").hide(); // $("#NaturalProductsChemistry").hide(); // $("#ChemistryinClinicalResearchDiagnosticsNanotherapeutics").hide(); // $("#EmergingTrendsFutureScopeofChemistry").hide(); // $("#subsessions").removeAttr("style"); // } else if ($(this).val() == "Surface Chemistry") { // $("#Organic").hide(); // $("#InorganicChemistryBiochemistry").hide(); // $("#PhysicalChemistry").hide(); // $("#AnalyticalBioanalyticalChemistry").hide(); // $("#PharmaceuticalMedicinalChemistry").hide(); // $("#PolymerChemistry").hide(); // $("#NuclearRadioChemistry").hide(); // $("#NanoScienceMaterialsChemistry").hide(); // $("#ChemicalEngineeringIndustrialChemistry").hide(); // $("#SurfaceChemistry").hide(); // $("#SupramolecularChemistry").removeAttr("style"); // $("#TheoreticalComputationalChemistry").hide(); // $("#FoodChemistryBiochemistry").hide(); // $("#ForensicChemistry").hide(); // $("#GreenChemistrySustainability").hide(); // $("#EnvironmentalGeoChemistry").hide(); // $("#Photochemistry").hide(); // $("#ChemicalKineticsCatalysis").hide(); // $("#Petrochemistry").hide(); // $("#Thermochemistry").hide(); // $("#PureAppliedChemistry").hide(); // $("#ElectrochemistryCorrosion").hide(); // $("#ChemistryofEnergy").hide(); // $("#ChemistryofTransitionElements").hide(); // $("#NaturalProductsChemistry").hide(); // $("#ChemistryinClinicalResearchDiagnosticsNanotherapeutics").hide(); // $("#EmergingTrendsFutureScopeofChemistry").hide(); // $("#subsessions").removeAttr("style"); // } else if ($(this).val() == "Supramolecular Chemistry") { // $("#Organic").hide(); // $("#InorganicChemistryBiochemistry").hide(); // $("#PhysicalChemistry").hide(); // $("#AnalyticalBioanalyticalChemistry").hide(); // $("#PharmaceuticalMedicinalChemistry").hide(); // $("#PolymerChemistry").hide(); // $("#NuclearRadioChemistry").hide(); // $("#NanoScienceMaterialsChemistry").hide(); // $("#ChemicalEngineeringIndustrialChemistry").hide(); // $("#SurfaceChemistry").hide(); // $("#SupramolecularChemistry").removeAttr("style"); // $("#TheoreticalComputationalChemistry").hide(); // $("#FoodChemistryBiochemistry").hide(); // $("#ForensicChemistry").hide(); // $("#GreenChemistrySustainability").hide(); // $("#EnvironmentalGeoChemistry").hide(); // $("#Photochemistry").hide(); // $("#ChemicalKineticsCatalysis").hide(); // $("#Petrochemistry").hide(); // $("#Thermochemistry").hide(); // $("#PureAppliedChemistry").hide(); // $("#ElectrochemistryCorrosion").hide(); // $("#ChemistryofEnergy").hide(); // $("#ChemistryofTransitionElements").hide(); // $("#NaturalProductsChemistry").hide(); // $("#ChemistryinClinicalResearchDiagnosticsNanotherapeutics").hide(); // $("#EmergingTrendsFutureScopeofChemistry").hide(); // $("#subsessions").removeAttr("style"); // } else if ($(this).val() == "Theoretical and Computational Chemistry") { // $("#Organic").hide(); // $("#InorganicChemistryBiochemistry").hide(); // $("#PhysicalChemistry").hide(); // $("#AnalyticalBioanalyticalChemistry").hide(); // $("#PharmaceuticalMedicinalChemistry").hide(); // $("#PolymerChemistry").hide(); // $("#NuclearRadioChemistry").hide(); // $("#NanoScienceMaterialsChemistry").hide(); // $("#ChemicalEngineeringIndustrialChemistry").hide(); // $("#SurfaceChemistry").hide(); // $("#SupramolecularChemistry").hide(); // $("#TheoreticalComputationalChemistry").removeAttr("style"); // $("#FoodChemistryBiochemistry").hide(); // $("#ForensicChemistry").hide(); // $("#GreenChemistrySustainability").hide(); // $("#EnvironmentalGeoChemistry").hide(); // $("#Photochemistry").hide(); // $("#ChemicalKineticsCatalysis").hide(); // $("#Petrochemistry").hide(); // $("#Thermochemistry").hide(); // $("#PureAppliedChemistry").hide(); // $("#ElectrochemistryCorrosion").hide(); // $("#ChemistryofEnergy").hide(); // $("#ChemistryofTransitionElements").hide(); // $("#NaturalProductsChemistry").hide(); // $("#ChemistryinClinicalResearchDiagnosticsNanotherapeutics").hide(); // $("#EmergingTrendsFutureScopeofChemistry").hide(); // $("#subsessions").removeAttr("style"); // } else if ($(this).val() == "Food Chemistry and Biochemistry") { // $("#Organic").hide(); // $("#InorganicChemistryBiochemistry").hide(); // $("#PhysicalChemistry").hide(); // $("#AnalyticalBioanalyticalChemistry").hide(); // $("#PharmaceuticalMedicinalChemistry").hide(); // $("#PolymerChemistry").hide(); // $("#NuclearRadioChemistry").hide(); // $("#NanoScienceMaterialsChemistry").hide(); // $("#ChemicalEngineeringIndustrialChemistry").hide(); // $("#SurfaceChemistry").hide(); // $("#SupramolecularChemistry").hide(); // $("#TheoreticalComputationalChemistry").hide(); // $("#FoodChemistryBiochemistry").removeAttr("style"); // $("#ForensicChemistry").hide(); // $("#GreenChemistrySustainability").hide(); // $("#EnvironmentalGeoChemistry").hide(); // $("#Photochemistry").hide(); // $("#ChemicalKineticsCatalysis").hide(); // $("#Petrochemistry").hide(); // $("#Thermochemistry").hide(); // $("#PureAppliedChemistry").hide(); // $("#ElectrochemistryCorrosion").hide(); // $("#ChemistryofEnergy").hide(); // $("#ChemistryofTransitionElements").hide(); // $("#NaturalProductsChemistry").hide(); // $("#ChemistryinClinicalResearchDiagnosticsNanotherapeutics").hide(); // $("#EmergingTrendsFutureScopeofChemistry").hide(); // $("#subsessions").removeAttr("style"); // } else if ($(this).val() == "Forensic Chemistry") { // $("#Organic").hide(); // $("#InorganicChemistryBiochemistry").hide(); // $("#PhysicalChemistry").hide(); // $("#AnalyticalBioanalyticalChemistry").hide(); // $("#PharmaceuticalMedicinalChemistry").hide(); // $("#PolymerChemistry").hide(); // $("#NuclearRadioChemistry").hide(); // $("#NanoScienceMaterialsChemistry").hide(); // $("#ChemicalEngineeringIndustrialChemistry").hide(); // $("#SurfaceChemistry").hide(); // $("#SupramolecularChemistry").hide(); // $("#TheoreticalComputationalChemistry").hide(); // $("#FoodChemistryBiochemistry").hide(); // $("#ForensicChemistry").removeAttr("style"); // $("#GreenChemistrySustainability").hide(); // $("#EnvironmentalGeoChemistry").hide(); // $("#Photochemistry").hide(); // $("#ChemicalKineticsCatalysis").hide(); // $("#Petrochemistry").hide(); // $("#Thermochemistry").hide(); // $("#PureAppliedChemistry").hide(); // $("#ElectrochemistryCorrosion").hide(); // $("#ChemistryofEnergy").hide(); // $("#ChemistryofTransitionElements").hide(); // $("#NaturalProductsChemistry").hide(); // $("#ChemistryinClinicalResearchDiagnosticsNanotherapeutics").hide(); // $("#EmergingTrendsFutureScopeofChemistry").hide(); // $("#subsessions").removeAttr("style"); // } else if ($(this).val() == "Green Chemistry and Sustainability") { // $("#Organic").hide(); // $("#InorganicChemistryBiochemistry").hide(); // $("#PhysicalChemistry").hide(); // $("#AnalyticalBioanalyticalChemistry").hide(); // $("#PharmaceuticalMedicinalChemistry").hide(); // $("#PolymerChemistry").hide(); // $("#NuclearRadioChemistry").hide(); // $("#NanoScienceMaterialsChemistry").hide(); // $("#ChemicalEngineeringIndustrialChemistry").hide(); // $("#SurfaceChemistry").hide(); // $("#SupramolecularChemistry").hide(); // $("#TheoreticalComputationalChemistry").hide(); // $("#FoodChemistryBiochemistry").hide(); // $("#ForensicChemistry").hide(); // $("#GreenChemistrySustainability").removeAttr("style"); // $("#EnvironmentalGeoChemistry").hide(); // $("#Photochemistry").hide(); // $("#ChemicalKineticsCatalysis").hide(); // $("#Petrochemistry").hide(); // $("#Thermochemistry").hide(); // $("#PureAppliedChemistry").hide(); // $("#ElectrochemistryCorrosion").hide(); // $("#ChemistryofEnergy").hide(); // $("#ChemistryofTransitionElements").hide(); // $("#NaturalProductsChemistry").hide(); // $("#ChemistryinClinicalResearchDiagnosticsNanotherapeutics").hide(); // $("#EmergingTrendsFutureScopeofChemistry").hide(); // $("#subsessions").removeAttr("style"); // } else if ($(this).val() == "Environmental and Geo Chemistry") { // $("#Organic").hide(); // $("#InorganicChemistryBiochemistry").hide(); // $("#PhysicalChemistry").hide(); // $("#AnalyticalBioanalyticalChemistry").hide(); // $("#PharmaceuticalMedicinalChemistry").hide(); // $("#PolymerChemistry").hide(); // $("#NuclearRadioChemistry").hide(); // $("#NanoScienceMaterialsChemistry").hide(); // $("#ChemicalEngineeringIndustrialChemistry").hide(); // $("#SurfaceChemistry").hide(); // $("#SupramolecularChemistry").hide(); // $("#TheoreticalComputationalChemistry").hide(); // $("#FoodChemistryBiochemistry").hide(); // $("#ForensicChemistry").hide(); // $("#GreenChemistrySustainability").hide(); // $("#EnvironmentalGeoChemistry").removeAttr("style"); // $("#Photochemistry").hide(); // $("#ChemicalKineticsCatalysis").hide(); // $("#Petrochemistry").hide(); // $("#Thermochemistry").hide(); // $("#PureAppliedChemistry").hide(); // $("#ElectrochemistryCorrosion").hide(); // $("#ChemistryofEnergy").hide(); // $("#ChemistryofTransitionElements").hide(); // $("#NaturalProductsChemistry").hide(); // $("#ChemistryinClinicalResearchDiagnosticsNanotherapeutics").hide(); // $("#EmergingTrendsFutureScopeofChemistry").hide(); // $("#subsessions").removeAttr("style"); // } else if ($(this).val() == "Photochemistry") { // $("#Organic").hide(); // $("#InorganicChemistryBiochemistry").hide(); // $("#PhysicalChemistry").hide(); // $("#AnalyticalBioanalyticalChemistry").hide(); // $("#PharmaceuticalMedicinalChemistry").hide(); // $("#PolymerChemistry").hide(); // $("#NuclearRadioChemistry").hide(); // $("#NanoScienceMaterialsChemistry").hide(); // $("#ChemicalEngineeringIndustrialChemistry").hide(); // $("#SurfaceChemistry").hide(); // $("#SupramolecularChemistry").hide(); // $("#TheoreticalComputationalChemistry").hide(); // $("#FoodChemistryBiochemistry").hide(); // $("#ForensicChemistry").hide(); // $("#GreenChemistrySustainability").hide(); // $("#EnvironmentalGeoChemistry").hide(); // $("#Photochemistry").removeAttr("style"); // $("#ChemicalKineticsCatalysis").hide(); // $("#Petrochemistry").hide(); // $("#Thermochemistry").hide(); // $("#PureAppliedChemistry").hide(); // $("#ElectrochemistryCorrosion").hide(); // $("#ChemistryofEnergy").hide(); // $("#ChemistryofTransitionElements").hide(); // $("#NaturalProductsChemistry").hide(); // $("#ChemistryinClinicalResearchDiagnosticsNanotherapeutics").hide(); // $("#EmergingTrendsFutureScopeofChemistry").hide(); // $("#subsessions").removeAttr("style"); // } else if ($(this).val() == "Chemical Kinetics and Catalysis") { // $("#Organic").hide(); // $("#InorganicChemistryBiochemistry").hide(); // $("#PhysicalChemistry").hide(); // $("#AnalyticalBioanalyticalChemistry").hide(); // $("#PharmaceuticalMedicinalChemistry").hide(); // $("#PolymerChemistry").hide(); // $("#NuclearRadioChemistry").hide(); // $("#NanoScienceMaterialsChemistry").hide(); // $("#ChemicalEngineeringIndustrialChemistry").hide(); // $("#SurfaceChemistry").hide(); // $("#SupramolecularChemistry").hide(); // $("#TheoreticalComputationalChemistry").hide(); // $("#FoodChemistryBiochemistry").hide(); // $("#ForensicChemistry").hide(); // $("#GreenChemistrySustainability").hide(); // $("#EnvironmentalGeoChemistry").hide(); // $("#Photochemistry").hide(); // $("#ChemicalKineticsCatalysis").removeAttr("style"); // $("#Petrochemistry").hide(); // $("#Thermochemistry").hide(); // $("#PureAppliedChemistry").hide(); // $("#ElectrochemistryCorrosion").hide(); // $("#ChemistryofEnergy").hide(); // $("#ChemistryofTransitionElements").hide(); // $("#NaturalProductsChemistry").hide(); // $("#ChemistryinClinicalResearchDiagnosticsNanotherapeutics").hide(); // $("#EmergingTrendsFutureScopeofChemistry").hide(); // $("#subsessions").removeAttr("style"); // } else if ($(this).val() == "Petrochemistry") { // $("#Organic").hide(); // $("#InorganicChemistryBiochemistry").hide(); // $("#PhysicalChemistry").hide(); // $("#AnalyticalBioanalyticalChemistry").hide(); // $("#PharmaceuticalMedicinalChemistry").hide(); // $("#PolymerChemistry").hide(); // $("#NuclearRadioChemistry").hide(); // $("#NanoScienceMaterialsChemistry").hide(); // $("#ChemicalEngineeringIndustrialChemistry").hide(); // $("#SurfaceChemistry").hide(); // $("#SupramolecularChemistry").hide(); // $("#TheoreticalComputationalChemistry").hide(); // $("#FoodChemistryBiochemistry").hide(); // $("#ForensicChemistry").hide(); // $("#GreenChemistrySustainability").hide(); // $("#EnvironmentalGeoChemistry").hide(); // $("#Photochemistry").hide(); // $("#ChemicalKineticsCatalysis").hide(); // $("#Petrochemistry").removeAttr("style"); // $("#Thermochemistry").hide(); // $("#PureAppliedChemistry").hide(); // $("#ElectrochemistryCorrosion").hide(); // $("#ChemistryofEnergy").hide(); // $("#ChemistryofTransitionElements").hide(); // $("#NaturalProductsChemistry").hide(); // $("#ChemistryinClinicalResearchDiagnosticsNanotherapeutics").hide(); // $("#EmergingTrendsFutureScopeofChemistry").hide(); // $("#subsessions").removeAttr("style"); // } else if ($(this).val() == "Thermochemistry") { // $("#Organic").hide(); // $("#InorganicChemistryBiochemistry").hide(); // $("#PhysicalChemistry").hide(); // $("#AnalyticalBioanalyticalChemistry").hide(); // $("#PharmaceuticalMedicinalChemistry").hide(); // $("#PolymerChemistry").hide(); // $("#NuclearRadioChemistry").hide(); // $("#NanoScienceMaterialsChemistry").hide(); // $("#ChemicalEngineeringIndustrialChemistry").hide(); // $("#SurfaceChemistry").hide(); // $("#SupramolecularChemistry").hide(); // $("#TheoreticalComputationalChemistry").hide(); // $("#FoodChemistryBiochemistry").hide(); // $("#ForensicChemistry").hide(); // $("#GreenChemistrySustainability").hide(); // $("#EnvironmentalGeoChemistry").hide(); // $("#Photochemistry").hide(); // $("#ChemicalKineticsCatalysis").hide(); // $("#Petrochemistry").hide(); // $("#Thermochemistry").removeAttr("style"); // $("#PureAppliedChemistry").hide(); // $("#ElectrochemistryCorrosion").hide(); // $("#ChemistryofEnergy").hide(); // $("#ChemistryofTransitionElements").hide(); // $("#NaturalProductsChemistry").hide(); // $("#ChemistryinClinicalResearchDiagnosticsNanotherapeutics").hide(); // $("#EmergingTrendsFutureScopeofChemistry").hide(); // $("#subsessions").removeAttr("style"); // } else if ($(this).val() == "Pure and Applied Chemistry") { // $("#Organic").hide(); // $("#InorganicChemistryBiochemistry").hide(); // $("#PhysicalChemistry").hide(); // $("#AnalyticalBioanalyticalChemistry").hide(); // $("#PharmaceuticalMedicinalChemistry").hide(); // $("#PolymerChemistry").hide(); // $("#NuclearRadioChemistry").hide(); // $("#NanoScienceMaterialsChemistry").hide(); // $("#ChemicalEngineeringIndustrialChemistry").hide(); // $("#SurfaceChemistry").hide(); // $("#SupramolecularChemistry").hide(); // $("#TheoreticalComputationalChemistry").hide(); // $("#FoodChemistryBiochemistry").hide(); // $("#ForensicChemistry").hide(); // $("#GreenChemistrySustainability").hide(); // $("#EnvironmentalGeoChemistry").hide(); // $("#Photochemistry").hide(); // $("#ChemicalKineticsCatalysis").hide(); // $("#Petrochemistry").hide(); // $("#Thermochemistry").hide(); // $("#PureAppliedChemistry").removeAttr("style"); // $("#ElectrochemistryCorrosion").hide(); // $("#ChemistryofEnergy").hide(); // $("#ChemistryofTransitionElements").hide(); // $("#NaturalProductsChemistry").hide(); // $("#ChemistryinClinicalResearchDiagnosticsNanotherapeutics").hide(); // $("#EmergingTrendsFutureScopeofChemistry").hide(); // $("#subsessions").removeAttr("style"); // } else if ($(this).val() == "Electrochemistry and Corrosion") { // $("#Organic").hide(); // $("#InorganicChemistryBiochemistry").hide(); // $("#PhysicalChemistry").hide(); // $("#AnalyticalBioanalyticalChemistry").hide(); // $("#PharmaceuticalMedicinalChemistry").hide(); // $("#PolymerChemistry").hide(); // $("#NuclearRadioChemistry").hide(); // $("#NanoScienceMaterialsChemistry").hide(); // $("#ChemicalEngineeringIndustrialChemistry").hide(); // $("#SurfaceChemistry").hide(); // $("#SupramolecularChemistry").hide(); // $("#TheoreticalComputationalChemistry").hide(); // $("#FoodChemistryBiochemistry").hide(); // $("#ForensicChemistry").hide(); // $("#GreenChemistrySustainability").hide(); // $("#EnvironmentalGeoChemistry").hide(); // $("#Photochemistry").hide(); // $("#ChemicalKineticsCatalysis").hide(); // $("#Petrochemistry").hide(); // $("#Thermochemistry").hide(); // $("#PureAppliedChemistry").hide(); // $("#ElectrochemistryCorrosion").removeAttr("style"); // $("#ChemistryofEnergy").hide(); // $("#ChemistryofTransitionElements").hide(); // $("#NaturalProductsChemistry").hide(); // $("#ChemistryinClinicalResearchDiagnosticsNanotherapeutics").hide(); // $("#EmergingTrendsFutureScopeofChemistry").hide(); // $("#subsessions").removeAttr("style"); // } else if ($(this).val() == "Chemistry of Energy") { // $("#Organic").hide(); // $("#InorganicChemistryBiochemistry").hide(); // $("#PhysicalChemistry").hide(); // $("#AnalyticalBioanalyticalChemistry").hide(); // $("#PharmaceuticalMedicinalChemistry").hide(); // $("#PolymerChemistry").hide(); // $("#NuclearRadioChemistry").hide(); // $("#NanoScienceMaterialsChemistry").hide(); // $("#ChemicalEngineeringIndustrialChemistry").hide(); // $("#SurfaceChemistry").hide(); // $("#SupramolecularChemistry").hide(); // $("#TheoreticalComputationalChemistry").hide(); // $("#FoodChemistryBiochemistry").hide(); // $("#ForensicChemistry").hide(); // $("#GreenChemistrySustainability").hide(); // $("#EnvironmentalGeoChemistry").hide(); // $("#Photochemistry").hide(); // $("#ChemicalKineticsCatalysis").hide(); // $("#Petrochemistry").hide(); // $("#Thermochemistry").hide(); // $("#PureAppliedChemistry").hide(); // $("#ElectrochemistryCorrosion").hide(); // $("#ChemistryofEnergy").removeAttr("style"); // $("#ChemistryofTransitionElements").hide(); // $("#NaturalProductsChemistry").hide(); // $("#ChemistryinClinicalResearchDiagnosticsNanotherapeutics").hide(); // $("#EmergingTrendsFutureScopeofChemistry").hide(); // $("#subsessions").removeAttr("style"); // } else if ($(this).val() == "Chemistry of Transition Elements") { // $("#Organic").hide(); // $("#InorganicChemistryBiochemistry").hide(); // $("#PhysicalChemistry").hide(); // $("#AnalyticalBioanalyticalChemistry").hide(); // $("#PharmaceuticalMedicinalChemistry").hide(); // $("#PolymerChemistry").hide(); // $("#NuclearRadioChemistry").hide(); // $("#NanoScienceMaterialsChemistry").hide(); // $("#ChemicalEngineeringIndustrialChemistry").hide(); // $("#SurfaceChemistry").hide(); // $("#SupramolecularChemistry").hide(); // $("#TheoreticalComputationalChemistry").hide(); // $("#FoodChemistryBiochemistry").hide(); // $("#ForensicChemistry").hide(); // $("#GreenChemistrySustainability").hide(); // $("#EnvironmentalGeoChemistry").hide(); // $("#Photochemistry").hide(); // $("#ChemicalKineticsCatalysis").hide(); // $("#Petrochemistry").hide(); // $("#Thermochemistry").hide(); // $("#PureAppliedChemistry").hide(); // $("#ElectrochemistryCorrosion").hide(); // $("#ChemistryofEnergy").hide(); // $("#ChemistryofTransitionElements").removeAttr("style"); // $("#NaturalProductsChemistry").hide(); // $("#ChemistryinClinicalResearchDiagnosticsNanotherapeutics").hide(); // $("#EmergingTrendsFutureScopeofChemistry").hide(); // $("#subsessions").removeAttr("style"); // } else if ($(this).val() == "Natural Products Chemistry") { // $("#Organic").hide(); // $("#InorganicChemistryBiochemistry").hide(); // $("#PhysicalChemistry").hide(); // $("#AnalyticalBioanalyticalChemistry").hide(); // $("#PharmaceuticalMedicinalChemistry").hide(); // $("#PolymerChemistry").hide(); // $("#NuclearRadioChemistry").hide(); // $("#NanoScienceMaterialsChemistry").hide(); // $("#ChemicalEngineeringIndustrialChemistry").hide(); // $("#SurfaceChemistry").hide(); // $("#SupramolecularChemistry").hide(); // $("#TheoreticalComputationalChemistry").hide(); // $("#FoodChemistryBiochemistry").hide(); // $("#ForensicChemistry").hide(); // $("#GreenChemistrySustainability").hide(); // $("#EnvironmentalGeoChemistry").hide(); // $("#Photochemistry").hide(); // $("#ChemicalKineticsCatalysis").hide(); // $("#Petrochemistry").hide(); // $("#Thermochemistry").hide(); // $("#PureAppliedChemistry").hide(); // $("#ElectrochemistryCorrosion").hide(); // $("#ChemistryofEnergy").hide(); // $("#ChemistryofTransitionElements").hide(); // $("#NaturalProductsChemistry").removeAttr("style"); // $("#ChemistryinClinicalResearchDiagnosticsNanotherapeutics").hide(); // $("#EmergingTrendsFutureScopeofChemistry").hide(); // $("#subsessions").removeAttr("style"); // } else if ($(this).val() == "Chemistry in Clinical Research, Diagnostics and Nanotherapeutics") { // $("#Organic").hide(); 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