Rama Gaur – författare
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3 produkter
3 produkter
2 747 kr
Skickas inom 10-15 vardagar
The present book focuses on advancement in the application of heterogeneous catalytic materials for the dehydrogenative synthesis of valuable organic compounds from substrates such as alcohols and simple aliphatic compounds. Several heterogeneous transition metals-based catalytic materials are explored for the synthesis of valuable chemicals for industrial applications. The book provides insight into the application of state-of-the-art technology for energy utilization and clean chemical synthesis.Features:Offers a wide overview of dehydrogenation catalytic chemistry catalyzed by transition metals and their compounds.Helps design novel and more benign and uncomplicated protocols for the synthesis of valuable chemicals from readily available raw materials.Provides deeper insight into the aspect of dehydrogenation reactions for clean chemical synthesis via a cascade process.Summarizes new mechanistic details of dehydrogenation reactions, experimental side development and applications of dehydrogenation techniques.Explores alternative solutions for the assimilation and transportation of clean energy in the form of hydrogen energy utilization.This book is aimed at graduate students and researchers in chemical engineering, chemistry, catalysis, organic synthesis, pharmaceutical chemistry and petrochemistry.
1 007 kr
Skickas inom 10-15 vardagar
The present book focuses on advancement in the application of heterogeneous catalytic materials for the dehydrogenative synthesis of valuable organic compounds from substrates such as alcohols and simple aliphatic compounds. Several heterogeneous transition metals-based catalytic materials are explored for the synthesis of valuable chemicals for industrial applications. The book provides insight into the application of state-of-the-art technology for energy utilization and clean chemical synthesis.Features:Offers a wide overview of dehydrogenation catalytic chemistry catalyzed by transition metals and their compounds.Helps design novel and more benign and uncomplicated protocols for the synthesis of valuable chemicals from readily available raw materials.Provides deeper insight into the aspect of dehydrogenation reactions for clean chemical synthesis via a cascade process.Summarizes new mechanistic details of dehydrogenation reactions, experimental side development and applications of dehydrogenation techniques.Explores alternative solutions for the assimilation and transportation of clean energy in the form of hydrogen energy utilization.This book is aimed at graduate students and researchers in chemical engineering, chemistry, catalysis, organic synthesis, pharmaceutical chemistry and petrochemistry.
2 404 kr
Skickas inom 10-15 vardagar
This book reviews the fundamentals of electrochemical sensors, the preparation of electrodes, potential materials for sensing applications, and different analytical methods used for electrochemical sensing applications. It further covers the designing of various electrodes and electrode materials, instruments, sensing mechanisms, advanced nanomaterials for sensing, and so forth. The scalability and commercialization of electrochemical sensors and the challenges and prospects of electrochemical sensors are also described.Key Features:Provides an overview of the advances in the application of nanomaterials in sensingCovers basic fabrication techniques of electrodes as an important part of electrochemical sensors and analysisReviews the use and analysis of different types of nanomaterials and nanocomposites used for fabrication of working electrodesEmphasizes carbon-based nanomaterials, 2D nanomaterials, and advanced nanocomposites comprising various matrix systems such as conducting polymers, andExplores electron transfer, redox behaviour, fabrication techniques, data interpretation, and advanced nanomaterials as working electrode materialsThis book is aimed at researchers and graduate students in nanomaterials, electrochemistry, chemical engineering, and materials science.