Bio-nano interfaces (BNI) are the interdisciplinary field of research that investigates the interactions between biological systems and nanomaterials. BNI studies encompass a wide range of topics, from the development of new nanomaterials for the detection of biological molecules to the construction of bio-nano systems for drug delivery and tissue engineering. It also involves exploring the potential of using nanomaterials to manipulate biological systems at the nanoscale level. The study of BNI is essential in order to understand the behavior of nanomaterials in biological systems, and to develop novel nanomaterials and bio-nano systems with enhanced properties. One of the main challenges in this field is to determine the optimal design of a bio-nano interface that is both compatible with the biological system and capable of providing the desired functionality. To achieve this, researchers need to understand the properties of the nanomaterials and how they interact with biological molecules. In order to construct effective BNI systems, researchers need to consider a number of factors, such as the size, shape, surface chemistry, and charge of the nanomaterials
Title : Circumventing challenges in developing CVD graphene on steels for extraordinary and durable corrosion resistance
Raman Singh, Monash University, Australia
Title : Nanomaterial-based bio-lubricant additives for improved efficiency and environmental sustainability in automotive applications
S V A R Sastry, Harcourt Butler Technical University, India
Title : Evaluating cytotoxicity of metal-doped tin oxide nanoparticles
Paulo Cesar De Morais, Catholic University of Brasilia, Brazil
Title : Nano DAP augments productivity, phosphorus use efficiency, and profitability of spring wheat in India
Binaya Kumar Parida, Coromandel International Ltd, India
Title : Dual memory characteristics and crystallographic transformations in shape memory alloys
Osman Adiguzel, Firat University, Turkey
Title : Biosurfactant conjugated and functionalized silver nanoparticles with enhanced antimicrobial and antibiofilm efficacy: A mechanistic approach
Rajib Majumder, Adamas University & CSIR-IICB, India