Bøger udgivet af Pan Stanford Publishing Pte Ltd

The interest in finding reliable and highly sensitive sensors for water quality control has grown recently empowered by the explosion of cutting-edge technologies such as nanotechnologies, optoelectronics, and computing on one hand and by the increasing need for more secure control of water quality on the other hand. This book highlights a number of modern topics in the field of biosensing particularly for water sensing in which the signal is enhanced, starting from surface enhanced spectroscopies using plasmonic structures such as Raman scattering (SERS), infrared enhanced absorption (SEIRA), and surface enhanced fluorescence (SEF).

Fuel cell systems are being commercialized. Most noteworthy are low-temperature PEM fuel cell systems that are economically attractive for applications including backup power systems and material handling (forklifts). This book details the advances of fuel cell systems incorporating methanol reformers as the source of purified hydrogen.

Argues that the overall trajectory pursued through nanotechnology provides little hope for a more equitable world.

Dyneins are biological molecular motors that move along microtubules and drive a surprisingly wide range of essential cellular processes. This book offers information on both cytoplasmic and flagellar dyneins and the proteins they directly interact with, combining data obtained with a range of biophysical, biochemical and cell biological methods.

Superconductors (SC) reveal deep insight of physical properties of condensed matters. In particular, recent advancement of carbon-based new SCs (CNSC) is significant. This book describes basic physics and the recent advancement of CNSC, such as diamond, graphite, carbon nanotubes, fullerenes, and others.

Self-Field Theory (SFT) is a recent development that has evolved from the classical electromagnetics of the electron's self fields that were studied by Abraham and Lorentz in 1903-4. This book deals with the topic of Self-Field Theory (SFT), a new mathematical description of physics distinct from quantum field theory.

A promising class of carbon-based nanostructured materials, varied from empty caged fullerenes and endohedral metallofullerenes to carbon nanotubes and nanohorns, has led to an explosion of research associated with nanotechnology. This book provides a comprehensive survey of the state-of-knowledge of this subject.

Magnetoelectric composites, which simultaneously exhibit ferroelectricity and ferromagnetism, have recently stimulated a sharply increasing number of research activities. This book discusses these bulk and nanostructured magnetoelectric composites both in experimental and theoretical.

The growing interest in the miniaturization of magnetic storage media and the quest for novel spintronics applications rely on element specific detection of spin and orbital magnetic moments in a solid. This book describes EMCD (energy loss magnetic chiral dichroism), a phenomenon in energy loss spectroscopy discovered in 2006.

Semiconductor photonics is a cross discipline between materials, physics, chemistry, opto and electronic devices. This is a collection of selected papers presented in Symposium O of Compound Semiconductor Photonics in the International Conference on Materials for Advanced Technology (ICMAT), which was held in Singapore on 28 June-3 July 2009.

Offers an overview of the state of research in both synchrotron radiation and structural proteomics from different laboratories all over the world, trying to touch all possible aspects of frontier research in this area. This book offers the reader insight in the real progress done in the leading research laboratories of different countries.

The Organic Light Emitting Diode (OLED) world is one of the most fascinated fields of research with an enormous technological application market. This book addresses the development of OLEDs based on rare-earth and transition-metal complexes, focusing in special the Europium, Terbium, Ruthenium and Rhenium.

Nanomedicine, the application of nanotechnology to health, raises high expectations for millions of patients for better, more efficient and affordable healthcare and has the potential of delivering promising solutions to many illnesses. This book focuses on the broad area of application of Nanotechnology in Human health.

Provides a comprehensive overview of the use of noble metal nanoparticles for bioimaging and biosensing. This book starts with a review on the synthesis, characterization, optical properties, and bioconjugation of noble metal nanoparticles, followed by introduction of various biodetection techniques based on noble metal nanoparticles.

Focuses on the discovery components and the toxicological perspectives of nano-materials. This book deals with the basics of nano-imaging techniques required for diagnostics, the underlying principles using which the nanomedicine discoveries are made, nano-oncology, nano-hematology, and nano-inspired discovery of low cost diagnostic techniques.

Biological molecular motors provide most cells with the dynamic systems required for their day-to-day existence. Examples exist occur in even the simplest organism (for example, a bacteria virus) and the range of tasks that they carry out is vast. This book describes a range of molecular motors, ranging from chemical motors to biological motors.

Unlike amino acids and nucleic acids, carbohydrates have been disregarded for a longer time by the scientific community. This book covers such topics as: Oligosaccharides and glycoconjugates in recognition processes; carbohydrate modifying enzymes; and, carbohydrate-modifying enzymes for unusual sugar biosynthesis.

Provides comprehensive coverage on the instrumentation and experimental methodology of photo- and electroluminescent properties of nanomaterials. Just as importantly, this title also outlines key historical developments and perspectives of nanotechnology,

Incorporates the understanding pertaining to nanoscale aspects of advanced energy storage devices such as Lithium-ion batteries and electrochemical supercapacitors. This book focuses on various fundamental issues in relation to device performance of various positive and negative electrode materials with reference to their nanoscale advantages.

Self-Field Theory (SFT) describes the photon within atomic structures in its role as binding agent between the electron and the proton. This book describes SFT's role within biophotonics and provides a theory of biophotonics capable of describing a range of the experimental biophotonic phenomena.

Metal-biotechnology is defined as biological technology that utilizes the reactions of various metals in metabolism and also chemical binding by living organisms and biomolecules. This book intends to introduce various fields of metal-biotechnology, emphasizing applications for the fields of environment conservation and resource recycling.

Carbon and silicon are among the most important elements because of their implication in many fields, ranging from astrophysics to biology. Their manipulation at the nanoscale has already lead to spectacular and well documented achievements such as fullerenes, nanotubes and nanowires. This book reviews these exotic futuristic species.

This book discusses the most relevant issues that a company or university will face when bringing a nanotechnology invention to the market. It discusses obtaining, strategic use, valuation, and licensing of patents. It also deals with venture capital, university-industry collaboration, environmental health and safety, and public perception. The book provides managers and scientists at universities and companies with industry-specific basic knowledge of often unfamiliar issues that are essential to the commercial success of their inventions.

This book deals with one of the most hot nanomaterials today, namely zinc oxide (ZnO) nanomaterials applied to the above areas. In the book are described different methods to grow ZnO nanostructures. Their optical and piezoelectrical properties are described as well as photo-toxicity. Applications to LEDs, lasers, power generators and chemical sensors are discussed. Finally the growth on flexible substrates , particularly ZnO nanostructures and devices on paper substrates are described.