Pierre Camille Lacaze – författare

The major topical and societal issues of energy transition and environmental conservation have benefited from the contribution of nanotechnologies and nanomaterials. Nanomaterials, including carbon-based newcomers, have helped to improve in particular the performance of energy storage and conversion devices. Some of these nanomaterials, including fullerenes, carbon nanotubes, nanodiamonds and carbon dots, were discovered well before the 2000s. Others are more recent, including graphene (the leading material of the 21st century) as well as many mineral materials developed at the nano scale: atomic clusters, metal or semiconductor nanoparticles, two-dimensional inorganic materials, metal-organic frameworks (MOF) and luminescent quantum dots. All of these are involved in the realization of devices for energy purposes. Nanotechnology and Nanomaterials for Energy provides a critical analysis of the latest work in the fields of batteries, photovoltaics, fuel cells and catalysis as well as lighting, with the advent of light-emitting diodes.

The key social issues of health, medicine, the environment, food and safety cannot be addressed without the support of chemical sensors and biosensors, whose performance is constantly improving in terms of reliability and cost, particularly in the production of autonomous devices connected to the Internet.Obtaining high-intensity transduction signals arising from the interaction of an analyte and a sensor, enabling the identification and dosage of a given compound, requires the selection of suitable physical measurement methods and the creation of structures that react specifically to different types of analyte.Nanotechnologies and Nanomaterials Applied to Chemical Sensors and Biosensors details recent advances in the field of sensor design using carbon-based nanomaterials (graphene, carbon nanotubes, carbon quantum dots, etc.) and inorganic nanomaterials (metallic nanoparticles, nanocrystals, transition metal dichalcogenides, etc.), as well as a variety of physical sensing methods (electrochemical, piezoelectric, electromagnetic, optic, optoelectronic, etc.).

Nanotechnologies: Concepts, Processing and Applications describes and explains how nanotechnologies have entered our everyday lives through scientific and industrial applications with the emphasis placed on the new perspectives in various fields related to societal problems. This book details how successive discoveries of new nanocarbon structures along with progress in different microscopy techniques have caused nanomaterials to take on an increasingly important role in electronics, electrochemical energy storage – batteries and fuel cells – and the electrical conversion of solar energy. Views once seen as futuristic on nanomachines and nanorobotics, therapeutic hopes and medical advances – such as those resulting from the application of new in-situ drug-delivery nanotechniques – are all presented.The most innovative developments are analyzed in terms of applications and should enable the reader to form his or her own opinion about the reality of the progress that can be expected from nanotechnologies in the near future. The book offers background reading for teachers in colleges who wish to have an overview on this subject.