Description
Taylor and Francis Ltd Nanocatalysis 1st Edition 2022 Hardbound by Ameta, Keshav Lalit
The field of nanocatalysis is undergoing rapid development. Nanocatalysis can help in designing catalysts with excellent activity, greater selectivity, and high stability. Their properties can easily be tuned by tailoring the size, shape, and morphology of the particular nanomaterial. Exhibiting both homogeneous and heterogeneous catalytic properties, nanocatalysts allow for rapid and selective chemical transformations, with the benefits of excellent product yield and ease of catalyst separation and recovery.Nanocatalysis: Synthesis of Bioactive Heterocycles reviews the catalytic performance and the synthesis and characterization of nanocatalysts, examining the current state of the art and pointing the way towards new avenues of research specially synthesis of bioactive heterocycles.Top researchers summarize synthetic methodologies for the synthesis of bioactive heterocycles using a nanocatalytic framework. The catalytic performance and the synthesis and characterization of nanocatalysts are reviewed. State of the art methods and new and emerging applications of nanocatalysts in the synthesis of biologically active heterocycles are detailed. Additional features include:Focuses on designing and synthesizing nanocatalysts specifically for the synthesis of different bioactive heterocycles.Demonstrates how nanocatalysis can produce catalysts with excellent activity, greater selectivity, and high stability.Explores tuning catalysts properties by tailoring the size, shape, and morphology of a nanomaterial.Offers the reader insights into the field of nanoscience via nanocatalysis.Nanocatalysis: Synthesis of Bioactive Heterocycles is a must read for researchers in organic chemistry, medicinal chemistry and biochemistry. PrefaceAbout the EditorsContributorsChapter 1Catalytic Applications of Nanocatalyst in Synthesis of LactamsChandran R and Abha SharmaChapter 2 Recent Advances in Nanocatalyzed Synthesis of Seven-Member N-heterocyclic Compounds with Special Reference to Azepines, Benzoazepines, Benzodiazepines and Their Derivatives: A Brief ReviewR. M. Borade, S. B. Kale, S. U. Tekale, C. S. Patil, S. B. Ubale, K. L. Ameta and R. P. PawarChapter 3 An Overview of the Synthesis of Pyrroline, Indolizine and Quinolizinium Derivatives Using Different NanocatalystsRohini N. Shelke1, Anant B. Kanagare, Satish U. Deshmukh, Saroj R. Bembalkar, Dattatraya N. Pansare , K. L. Ameta and Rajendra P. PawarChapter 4 Nanocatalyzed Synthesis of Bioactive Pyrrole, Indole, Furan and Benzofuran Derived HeterocyclesSatish U. Deshmukh, Ajit K. Dhas, Vidya D. Dofe, Satish A. Dake, Jaiprakash N. Sangshetti, K. L. Ameta and Rajendra P. PawarChapter 5 Cheaper Transition-Metals-Based Nanocatalyzed Organic Transformations and Synthesis of Bioactive Heterocycles: Strategic Approaches and Sustainable ApplicationsRavi Kant Yadav, Vedant V. Desmukh, Tushar M. Boralkar, Mukesh Jain1 and Sandeep Chaudhary Chapter 6 Nanocatalysis: An Efficient Tool for the Synthesis of Triazines and TetrazinesAnant B. Kanagare, Dattatraya N. Pansare, Ajit K. Dhas, Rajita D. Ingle, Rohini N. Shelke, K. L. Ameta and Rajendra P. PawarChapter 7 Synthesis of Quinolines, Isoquinolines, and Quinolones Using Various NanocatalystsChetna Ameta, Yogeshwari Vyas, Purnima Chaubisa, Dharmendra and K. L. AmetaChapter 8 Recent Advances in Nanocatalyzed Synthesis of Triazoles and Tetrazoles and their and Biological StudiesPopat M. Jadhav, Anant B. Kangare, Anand B. Dhirbassi, Atam B. Tekale, Ravikumar M. Borade, Sunil U. Tekale, K. L. Ameta, Rajendra P. PawarChapter 9 Nanocatalysed Synthesis and Biological Significance of Imidazoles, Hydantoins, Oxazoles and ThiazolesSurbhi Dhadda, Nidhi Jangir, Shikha Agarwal, Arvnabh Mishra, Dinesh Kumar JangidChapter 10 Nanocatalysed Synthesis of Pyrazoles, Indazoles and PyrazolinesDivyani Gandhi, Ayushi Sethiya, Nusrat Sahiba, Dinesh Kumar Jangid and Shikha Agarwal