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Scientific Leadership
Modern Science is teamwork. But how can young academics go from being a productive member of a scientific team to leading their own? Entry level positions for PhDs in Science often require the infamous "people skills". The authors aim to equip young academics with the right ideas and strategies for their scientific leadership development. Become a successful leader not with tricks, but with an inspiring and straightforward vision and mission, the correct mindset, and effective teamwork.
Towards Scientific Leadership
Modern Science and R&D critically rely on teamwork. This completely revised and expanded book "Towards Scientific Leadership" offers a unique approach to helping young professionals transition from productive team members to effective team leaders. The authors provide innovative ideas and strategies for leadership development, setting the book apart from others in the field. The basis of being a successful leader is authentic self-leadership – essential for all who want to control their own life. People who know themselves and realise what it takes to be productive and deliver results also understand how to lead others and inspire them to perform naturally and undertake initiatives. For scientists, who like to focus on knowledge and insight and how to transfer it to others, self-leadership is key to creating value and adopting it in practice. The book explains how to become a successful (self)leader, not with tricks, but with an inspiring vision and mission, the correct mindset, and effective teamwork.
Catalysis
Catalysts are required for a variety of applications. Industrialists and academics are increasingly challenged to find cost effective and environmentally benign catalysts to use. This volume looks at modern approaches to catalysis and critically reviews the extensive literature on areas such as catalysts derived from waste materials, determining the pore structure of activated carbon by nitrogen gas adsorption and a new tool to explore catalytic reaction mechanisms - the catalytic shock tube. With an emphasis on interdisciplinary content, this book is aimed at catalytic science and engineering research communities.
Catalysis
There is an increasing need to find cost-effective and environmentally sound methods of converting natural resources into fuels, chemicals and energy; catalysts are pivotal to such processes. Catalysis highlights major developments in this area. Coverage of this Specialist Periodical Report includes all major areas of heterogeneous catalysis. n each volume, specific areas of current interest are reviewed. Examples of topics include experimental methods, acid/base catalysis, materials synthesis, environmental catalysis, and syngas conversion.
Electrochemical Impedance Spectroscopy And Related Techniques: From Basics To Advanced Applications
This book begins by introducing the basic concepts of impedance to non-specialist readers, who may have only an elementary knowledge of physics and mathematics. Mathematical concepts are explained clearly at appropriate points in a series of Theory Notes. Subsequent chapters cover RCL (resistor, capacitor, inductor) circuits before developing the key ideas behind the application of impedance spectroscopy to electrochemical systems. Circuit elements used to model electron transfer, double-layer charging and diffusion are described in detail, along with Kramers-Kronig testing of experimental data. The book explains how potentiostats and frequency-response analyzers work and evaluates a wealth ...
Transition Metal Sulphides
Hydrotreating catalysis with transition metal sulphides is one of the most important areas of industrial heterogeneous catalysis. The present book deals with the chemical and catalytic aspects of transition metal sulphides, focusing on their use in hydrotreating catalysis. The book¿s 12 chapters present reviews of solid-state, coordination and organometallic chemistry, surface science and spectroscopic studies, quantum chemical calculations, catalytic studies with model and real catalysts, as well as refinery processes. A presentation of state-of-the-art background to pertinent work in the field. Can be used as an introduction to the chemical and catalytic properties of transition metal sulphides as well as an advanced level reference.
An American Scientist
As a young man, Gabor Somorjai couldnt have known he would one day be forced to flee his native Hungary. But upheaval in Europe during and after World War II led him to the U.S. where he immersed himself in science and soon began building a research group at one of the powerhouses of scientific discovery. The timing couldnt have been better. The Sputnik wakeup call that triggered the huge influx of government support for scientific research in the second half of the 20th century bolstered fundamental research programs like the one Somorjai established at the University of California, Berkeley, and Lawrence Berkeley National Laboratory. Key discoveries in his fieldsurface scienceled the way t...
Current Catalog
First multi-year cumulation covers six years: 1965-70.
Mechanisms In Heterogeneous Catalysis
Heterogeneous catalysis has developed over the past two centuries as a technology driven by the needs of society, and is part of Nobel Prize-winning science. This book describes the spectacular increase in molecular understanding of heterogenous catalytic reactions in important industrial processes. Reaction mechanism and kinetics are discussed with a unique focus on their relation with the inorganic chemistry of the catalyst material. An introductory chapter presents the development of catalysis science and catalyst discovery from a historical perspective. Five chapters that form the thrust of the book are organized by type of reaction, reactivity principles, and mechanistic theories, which provide the scientific basis to structure-function relationships of catalyst performance. Present-day challenges to catalysis are sketched in a final chapter. Written by one of the world's leading experts on the topic, this definitive text is an essential reference for students, researchers and engineers working in this multibillion-dollar field.
Spectroscopy in Catalysis
'Spectroscopy in Catalysis' describes the most important modern analytical techniques used to investigate catalytic surfaces. These include electron spectroscopy (XPS, UPS, AES, EELS), ion spectroscopy (SIMS, SNMS, RBS, LEIS), vibrational spectroscopy (infrared, Raman, EELS), temperature-programmed techniques (TPR, TPO, TDS), diffraction (XRD, LEED, EXAFS), and microscopy (TEM, SEM, STEM, STM, AFM, FEM, and FIM). Each chapter uses current applications to illustrate the type of information that the technique provides and evaluates its possibilities and limitations. This second edition includes significant new developments, for example scanning probe microscopies, the imaging and vibrational t...
