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The thesis by Mercè Pacios exploits properties of carbon nanotubes to design novel nanodevices. The prominent electrochemical properties of carbon nanotubes are used to design diverse electrode configurations. In combination with the chemical properties and (bio)functionalization versatility, these materials prove to be very appropriate for the development of electrochemical biosensors. Furthermore, this work also evaluates the semiconductor character of carbon nanotubes (CNT) for sensor technology by using a field effect transistor configuration (FET). The CNT-FET device has been optimized for operating in liquid environments. These electrochemical and electronic CNT devices are highly promising for biomolecule sensing and for the monitoring of biological processes, which can in the future lead to applications for rapid and simple diagnostics in fields such as biotechnology, clinical and environmental research.
What Is Multi Function Structure Multi-function material is a composite material. The traditional approach to the development of structures is to address the loadcarrying function and other functional requirements separately. Recently, however, there has been increased interest in the development of load-bearing materials and structures which have integral non-load-bearing functions, guided by recent discoveries about how multifunctional biological systems work. How You Will Benefit (I) Insights, and validations about the following topics: Chapter 1: Multi-function structure Chapter 2: Composite material Chapter 3: Functionally graded material Chapter 4: Electrical resistivity and conductivi...
O le a le Fa'atulagaina o Galuega Fa'atele O mea e tele galuega o se mea tu'ufa'atasi. O le aga masani i le atinaʻeina o fausaga o le faʻatalanoaina o le faʻaogaina o uta ma isi manaʻoga faʻapitoa. Talu ai nei, peita'i, ua fa'atupula'ia le fiafia i le atina'eina o meafaitino e amoina uta ma fausaga o lo'o i ai galuega fa'atasi e le amoina, fa'ata'ita'iina e mea na maua talu ai nei e uiga i le fa'aogaina o faiga fa'aola ola e tele. Fa'afefea ona E Fa'amanuiaina (I) Malamalamaga, ma fa'amaoniga e uiga i autu nei: Matā'upu 1: Fa'atulagaina o galuega e tele Mataupu 2: Mea fa'afefiloi Matā'upu 3: Meafaitino fa'avasega lelei Matā'upu 4: Fa'asalaina fa'aeletise ma le fa'aosoina Mataupu 5: F...
Qu'est-ce qu'une structure multifonctionnelle Le matériau multifonction est un matériau composite. L'approche traditionnelle du développement des structures consiste à traiter séparément la fonction de support de charge et les autres exigences fonctionnelles. Récemment, cependant, il y a eu un intérêt accru pour le développement de matériaux et de structures porteurs qui ont des fonctions non porteuses intégrales, guidés par les découvertes récentes sur le fonctionnement des systèmes biologiques multifonctionnels. Comment vous en bénéficierez (I) Insights et validations sur les sujets suivants : Chapitre 1 : Structure multifonctionnelle Chapitre 2 : Matériau composite Chap...
Cos'è la struttura multifunzionale Il materiale multifunzione è un materiale composito. L'approccio tradizionale allo sviluppo delle strutture consiste nell'affrontare separatamente la funzione di carico e altri requisiti funzionali. Di recente, tuttavia, c'è stato un crescente interesse per lo sviluppo di materiali e strutture portanti che hanno funzioni integrali non portanti, guidato dalle recenti scoperte sul funzionamento dei sistemi biologici multifunzionali. Come ne trarrai vantaggio (I) Approfondimenti e convalide sui seguenti argomenti: Capitolo 1: Struttura multifunzione Capitolo 2: Materiale composito Capitolo 3: Materiale classificato in modo funzionale Capitolo 4: Resistivit...
O que é estrutura multifuncional O material multifuncional é um material composto. A abordagem tradicional para o desenvolvimento de estruturas é abordar a função de transporte de carga e outros requisitos funcionais separadamente. Recentemente, no entanto, tem havido um interesse crescente no desenvolvimento de materiais e estruturas de suporte de carga que tenham funções integrais sem suporte de carga, guiado por descobertas recentes sobre como funcionam os sistemas biológicos multifuncionais. Como você se beneficiará (I) Insights e validações sobre os seguintes tópicos: Capítulo 1: Estrutura multifuncional Capítulo 2: Material composto Capítulo 3: material com classificaç...
Was ist eine Multifunktionsstruktur Multifunktionsmaterial ist ein Verbundmaterial. Der traditionelle Ansatz bei der Entwicklung von Strukturen besteht darin, die lasttragende Funktion und andere funktionale Anforderungen separat zu behandeln. In letzter Zeit ist jedoch das Interesse an der Entwicklung von lasttragenden Materialien und Strukturen mit integralen nicht-tragenden Funktionen gestiegen, geleitet von jüngsten Entdeckungen darüber, wie multifunktionale biologische Systeme funktionieren. So profitieren Sie (I) Einblicke und Validierungen zu den folgenden Themen: Kapitel 1: Multifunktionsstruktur Kapitel 2: Verbundmaterial Kapitel 3: Funktional abgestuftes Material Kapitel 4: Elekt...
多機能構造とは 多機能材料は複合材料です。構造物の開発に対する従来のアプローチは、耐荷重機能とその他の機能要件を別々に扱うことです。しかし、最近、多機能生物システムがどのように機能するかについての最近の発見に導かれて、一体型の非耐荷重機能を備えた耐荷重材料および構造の開発への関心が高まっています。 どのようにメリットがありますか (I)次のトピックに関する洞察と検証: 第1章:多機能構造 第2章:複合材料 第3章:傾斜機能材料 第4章:電気抵抗率と導電率 第5章:熱伝導率 第6章:カーボンナノチ...
This book contains an overview of novel synthesis, characterization, and applications of nanomaterials. Based on an extensive state-of-the-art literature survey and results obtained from researches during the past years, this book presents techniques and special applications of classical and modern nanomaterials. This book reviews different nanomaterials, from the synthesis and characterization of diverse materials to modern applications such as viral detection, hyperthermia, thermoelectric, nano-coatings, electrochromic, pigments, among others. This book is aimed at students, researchers, and engineers who seek general scientific knowledge about nanomaterials with an application-oriented approach.
Quantum tunneling is an essential issue in quantum physics. Especially, the rapid development of nanotechnology in recent years promises a lot of applications in condensed matter physics, surface science and nanodevices, which are growing interests in fundamental issues, computational techniques and potential applications of quantum tunneling.The book involves two relevant topics. One is quantum tunneling theory in condensed matter physics, including the basic concepts and methods, especially for recent developments in mesoscopic physics and computational formulation. The second part is the field electron emission theory, which covers the basic field emission concepts, the Fowler-Nordheim th...