As analysis of biological samples and living systems becomes more demanding, new platforms of ultransensitive analysis using multiplexing, single nanoparticle sensing, nano-fluidics, and single-molecule detection have been developed. Furthermore, the emerging fields of nanoscience and nanotechnology provide new possiblities for the development of analytical tools and instruments for biological analysis at much quicker speeds and at much smaller levels. Such powerful capabilities will ultimately lead to the development of new analytical techniques for improving disease diagnosis and treatment, as well as to advancing our understanding of important biological phenomena such as membrane transport, enzyme activities, and intracellular and intercellular signaling. In this book, a diverse group of analytical chemists working in the forefront of ultrasensitive bioanalysis share their insights, visions, and latest results.

---

An overview of current research and developments in ultrasensitive bioanalysis

New platforms of ultrasensitive analysis of biomolecules and single living cells using multiplexing, single nanoparticle sensing, nano-fluidics, and single-molecule detection are advancing every scientific discipline at an unprecedented pace. With chapters written by a diverse group of scientists working in the forefront of ultrasensitive bioanalysis, this book provides an overview of the current status and an in-depth understanding of the objectives and future research directions of ultrasensitive bioanalysis. Spanning a wide spectrum of new research approaches, this book:
_

Introduces new theories, ideas, methodologies, technologies, and applications of ultrasensitive bioanalysis in a wide variety of research fields
_

Includes background, fundamentals, and descriptions of instrumentation and techniques behind every experimental design and approach to help readers explorethe promising applications of new tools
_

Covers single molecule detection (SMD), single living cell analysis, multi-functional nanoparticle probes, miniaturization, multiplexing, quantitative and qualitative analysis of metal ions and small molecules, and more
_

Discusses techniques such as single molecule microscope and spectroscopy, single nanoparticle optics, single nanoparticle sensors, micro- and nano-fluidics, microarray detection, ultramicroelectrodes, electrochemiluminescence, mass spectrometry, and more

This book will be a useful resource and an inspiration for scientists and graduate and undergraduate students in a wide variety of research fields, including chemistry, biology, biomedical science and engineering, and materials science and engineering.