Boron Nitride and Its Hybrids: Synthesis, Properties and Potential Applications.- Two-dimensional (2D) materials incorporated PMMA Polymeric Nanocomposites: Synthesis and applications.- Two-Dimensional Transition Metal Oxides (TMOs) for solar cell applications.- MXene-based Two-dimensional (2D) Hybrid materials and their Applications towards environment.- 2D Metal Carbides & Nitrides (MXenes) in Water Treatment.- Two dimensional (2D)-hybrid nanocomposites for environmental sensing applications.- Graphene-based nanocomposites in electrochemical sensing.- Two-Dimensional (2D) Materials for Bio-sensing applications.- Two-dimensional material based novel drug delivery system.- Two-dimensional graphene quantum dots in drug delivery applications.- Two-dimensional (2D)-based Hybrid Composites for Cancer Diagnosis and Therapy.- Two dimensional (2D) based hybrid polymeric nanoparticles as novel potential therapeutics in treatment of hepatocellular carcinoma.- Potential of 2D-Materials: Novel Insights and Applications in Colorectal Cancer Research.- An Overview of Two-Dimensional Materials and Their Applications in Dentistry.- Two-Dimensional-Based Hybrid Materials for Agriculture System.
Dr. Neetu Talreja is working as Assistant Professor in the Department of Science, Faculty of Science and Technology, Alliance University, Anekal, Bengaluru, Karnataka 562 106, India. She completed her Ph.D. in Chemistry from collaboration between the Indian Institute of Technology, Kanpur, and Banasthali University, India. Before joining Alliance University, Anekal, Bengaluru, India, she worked as Researcher at the University of Concepcion, University of La Serena, Chile, Gachon University, South Korea, and the Department of Chemical Engineering, Beijing University of Chemical Technology, Beijing, China. Her research focuses mainly on interdisciplinary research involving nanomaterials and chemical sciences such as synthesis, nanomaterials characterization, two-dimensional nanomaterials, and polymeric composite-based materials for energy and environmental applications.
Dr. Divya Chauhan is working as Manager, Strategy and Transactions Ernst & Young Global LLP, India. She completed her Ph.D. in Chemistry from collaboration between the Indian Institute of Technology, Kanpur, and Banasthali University, India. Before joining Ernst & Young Global LLP, India, she worked as Researcher at the University of South Florida, Tampa, Florida, USA, Panjab University, India, and Beijing University of Chemical Technology, Beijing, China. She holds broad national and international experience in water quality monitoring, material synthesis, and water and air purification.
Dr. Mohammad Ashfaq is currently Assistant Professor at Chandigarh University, Mohali, Panjab, India. He completed his Ph.D. in Biotechnology from collaboration between the Indian Institute of Technology, Kanpur, and Banasthali University, India. Before joining Chandigarh University, Mohali, Panjab, India, he worked as Assistant Professor at BS Abdur Rahman Institute of Science and Technology, Chennai, India, as Researcher at the University of La Serena, Chile, University of Concepcion, Chile, and Postdoctoral Researcher in Polymer Microneedle Lab, School of Materials Science and Engineering, Beijing University of Chemical Technology, Beijing, China. He focuses mainly on interdisciplinary research involving nanomaterials and biological sciences, such as synthesis, characterization, and applications of nanomaterials/carbon nanofibers and polymeric composite-based materials. His area of interest consists of nanotechnology, nano-bioscience, biomedical applications of polymeric composite/nanotechnology, nano-cytotoxicity, biosensors, controlled release drug delivery systems, nanoparticle systems of metals and metal oxides, and its interaction of plants and animal cells.
This book highlights a comprehensive review of synthesis, properties, and strategies to improve the applicability of 2D materials like graphene, borophenes, metal nanosheets, phosphorene, and transition metal dichalcogenides (TMDs). It also highlights the synthesis of 2D-based hybrid composite materials and their effects on applicability, especially in energy, environment, and biomedical applications, by incorporating surface functional groups, metal/non-metal ions, and polymers. The advancement in innovative technology and use of 2D-based hybrid composite materials can improve the development of newer products/opening newer possibilities to fight existing issues related to environment, energy, and biomedical sciences. However, researchers continue to face numerous challenges in developing newer products/possibilities, large-scale production, with health and environmental impact being a challenge.
This book serves as a valuable resource for researchers, professionals and students working in the field of advanced materials, especially 2D-based hybrid composites.