London, : printed by Charles Bill, and the executrix of Thomas Newcomb, deceas'd; printers to the Kings most excellent Majesty, 1695 [i.e. 1696]

1 sheet ([1] p.)

William, King of England,  <1650-1702.>

Conspiracies - England

Great Britain History William and Mary, 1689-1702 Early works to 1800

Inglese

Title from caption title and opening lines of text.

The dates are given according to Lady Day dating.

At end of text: "Given at Our court at Kensington, the twenty second day of March, 1695. In the eighth year of Our reign.".

Lord Montgomery and Sir John Fenwick have committed treason and fled from justice. They are to be apprehended. £500 reward for them or either of them. -- Steele.

Arms 126; Steele notation: herein peace of.

Reproduction of the original in the British Library.

eebo-0018

Singapore : , : Springer Nature Singapore : , : Imprint : Springer, , 2024

981-9978-48-3

1 online resource (583 pages)

Advanced Structured Materials, , 1869-8441 ; ; 206

681.2

Nanotechnology

Nanoelectromechanical systems

Biophysics

Nanoscience

Nanoscale Design, Synthesis and Processing

Nanoscale Devices

Nanoscale Biophysics

Inglese

Includes bibliographical references.

From Atoms to the Higgs boson -- About teaching quantum mechanics in high-schools -- History of physics for education: the scientific contributions of Enrico Fermi -- Three Tales about Gravity -- Gravity between Physics and Philosophy -- Einstein’s theory at the extremes: gravitational waves and black holes -- The Dark Universe -- Gravitational Waves: an historical perspective.

This book is a compilation of carefully chosen chapters that cover the subjects of nanoscale matter, sensing, and labelling applications. It is aimed primarily at scientists and researchers who are already involved in theme-based research or who are just starting their careers. Despite the diverse nature of the topics covered, which include a range of materials in various forms and uses, the emphasis is primarily on sensing and labelling phenomena. The book begins with materials quantification in nanoscale systems by using an innovative technique like “molecular secondary ion mass spectrometry without calibration standards”. Subsequently, the book features an array of materials such as inorganic semiconductor nanoscale particles, carbon dots, rare-

earth oxides, polymer nanocomposites, and a few biomaterials, all of which illustrate their functionality and potential for deployment in a wide variety of sensing applications. Although the book delves into the technical aspects of fabrication workouts to some extent, the focus is predominantly on the physical principles, mechanisms, and relevance involved in sensing and labelling applications. The book covers a wide range of topics that leverage the unique properties of nanoscale materials. By carefully selecting appropriate active materials, the authors explore the detection of LPG, hazardous and explosive gases, as well as humidity sensing and hydrogen evolution. It also delves into photo-sensing and persistent photoconductivity by using nanoscale semiconductors, which are used for heavy metal sensing and UV sensing, respectively. The use of metal nanoparticles in various forms is reviewed to address issues related to water contamination, biofilm protection, and food-borne pathogens. The book also discusses surface plasmon resonance, starting with its basic principles and expanding to its relevance in a broader perspective, with a greater focus on applied biosensing. Nanoscale ferrites and magnetic systems are explored with an emphasis on magnetic sensing and actuation. Lastly, the book explores the use of rare-earth-based nanosystems, highlighting persistent luminescence and up/down-converted transitions, which have unprecedented applications in bioimaging and biolabeling. Every effort has been made to strike a balance between the observed phenomena in the emerging areas of sensing applications and suitable theoretical treatments there in. .