Surface chemistry plays an important role in everyday life, as the basis for many phenomena as well as technological applications. Common examples range from soap bubbles, foam, and raindrops to cosmetics, paint, adhesives, and pharmaceuticals. Additional areas that rely on surface chemistry include modern nanotechnology, medical diagnostics, and d
Surface and colloid chemistry principles impact many aspects of our daily lives, ranging from the cleaners and cosmetics we use to combustion engines and cement. Exploring the range of this field of study, Surface and Colloid Chemistry provides a detailed analysis of its principles and applications and demonstrates how they relate to natural phenom
Unique in focus, Surface Chemistry and Geochemistry of Hydraulic Fracturing examines the surface chemistry and phenomena in the hydrofracking process. Under great scrutiny as of late, the physico-chemical properties of hydrofracking are fully detailed and explained. Topics include the adsorption-desorption of gas on the shale reservoir surface and relevant waste-water treatment dependent on various surface chemistry principles. The aim of this book is to help engineers and research scientists recognize the basic surface chemistry principles related to this subject. Written by a long-time expert in the field, this book presents an unbiased account of the hard science and engineering involved in a resource that is gaining growing attention within the community.
Surface Chemistry of Carbon Capture: Climate Change Aspects provides comprehensive and up-to-date literature on carbon capture and storage (CCS) technology and delineates the surface chemistry of this process. Mankind is dependent on energy from gas, oil, coal, atomic energy, and various other sources. In all fossil fuel combustion processes, carbon dioxide (CO2) is produced (ca. 25 Gt/year). In the past few decades, we have observed a constant increase in CO2 content in the air (currently ca. 400 ppm [0.04%]). This book discusses the technology related to carbon (i.e., CO2) capture and sequestration (CCS) from fossil fuel energy plants, which is considered an important means of CO2 control. It also covers the adsorption/absorption processes of CO2 on solids and similar procedures to help address growing climate change concerns.
Climate Change and Carbon Recycling: Surface Chemistry Applications describes the application of surface chemistry methods for carbon capture and recycling in relation to climate change and atmospheric CO2 levels. The text is suitable for online education, with both basic and educational descriptions of the climate change process and carbon recycling methods like the adsorption and absorption of CO2 on solids. This book leads to a better understanding of a complex phenomenon and highlight the importance of CO2 capture and sequestration for the future to enable the utilization of fossil fuels without contributing to atmospheric greenhouse gases. Features This unique volume specifically highlights the surface chemistry aspects of carbon capture and recycling (CCR) Fills the need for an online textbook edition, which provides a basic and educational description of the climate change process and carbon capture/recycling Describes the application of surface chemistry methods for carbon capture and recycling, such as adsorption/absorption of CO2 Discusses the importance of recycling in reducing and controlling the concentration of carbon dioxide in the air (420 ppm: 0.042%) Describes the importance of the technology related to carbon capture/recycling and sequestration (CCS) from fossil fuel energy plants as a means of CO2 control
Self-assembly monolayer (SAM) structures of lipids and macromolecules have been found to play an important role in many industrial and biological phenomena. This book describes two procedures, namely the STM and AFM, that are used to study SAMs at solid surfaces. K.S. Birdi examines the SAMs at both liquid and solid surfaces by using the Langmuir monolayer method. This book is intended for researchers, academics and professionals.
In this introductory text, Dr. Birdi demonstrates experimental methods and analyses of fractal dimensions in natural processes. In addition to a general overview, he discusses in detail problems in the fields of chemistry, geochemistry, and biophysics. Both students and professionals with a minimum of mathematics or physical science training will learn to find and model shapes and patterns from their own everyday observations.
During the past few decades, much research has been reported on the formation of insoluble monomolecular films of lipids and biopolymers (synthetic polymers and proteins) on the surface of water or at the oil-water interface. This interest arises from the fact that monomolecular film studies have been found to provide much useful information on a molecular scale, information that is useful for understanding many industrial and biological phenomena in chemical, agricultural, pharmaceutical, medical, and food science applications. For instance, information obtained from lipid monolayer studies has been useful in determining the forces that are known to stabilize emulsions and biological cell membranes. The current texts on surface chemistry generally devote a single chapter to the characteristics of spread monolayers of lipids and biopolymers on liquids, and a researcher may have to review several hundred references to determine the procedures needed to investigate or analyze a particular phenomenon. Furthermore, there is an urgent need at this stage for a text that discusses the state of the art regarding the surface pheqomena exhibited by lipids and biopolymers, as they are relevant to a wide variety of surface and interfacial processes.
Scanning Probe Microscopes: Applications in Science and Technology explains, analyzes, and demonstrates the most widely used microscope in the family of microscopes -- the scanning probe microscope. Beginning with an introduction to the development of SPMs, the author introduces the basics of scanning tunneling and atomic force microscopes (STMs an
Surface and colloid chemistry principles impact many aspects of our daily lives, ranging from the cleaners and cosmetics we use to combustion engines and cement. Exploring the range of this field of study, Surface and Colloid Chemistry provides a detailed analysis of its principles and applications and demonstrates how they relate to natural phenom
In this introductory text, Dr. Birdi demonstrates experimental methods and analyses of fractal dimensions in natural processes. In addition to a general overview, he discusses in detail problems in the fields of chemistry, geochemistry, and biophysics. Both students and professionals with a minimum of mathematics or physical science training will learn to find and model shapes and patterns from their own everyday observations.
Unique in focus, Surface Chemistry and Geochemistry of Hydraulic Fracturing examines the surface chemistry and phenomena in the hydrofracking process. Under great scrutiny as of late, the physico-chemical properties of hydrofracking are fully detailed and explained. Topics include the adsorption-desorption of gas on the shale reservoir surface and relevant waste-water treatment dependent on various surface chemistry principles. The aim of this book is to help engineers and research scientists recognize the basic surface chemistry principles related to this subject. Written by a long-time expert in the field, this book presents an unbiased account of the hard science and engineering involved in a resource that is gaining growing attention within the community.
Surface chemistry plays an important role in everyday life, as the basis for many phenomena as well as technological applications. Common examples range from soap bubbles, foam, and raindrops to cosmetics, paint, adhesives, and pharmaceuticals. Additional areas that rely on surface chemistry include modern nanotechnology, medical diagnostics, and d
Surface Chemistry of Carbon Capture: Climate Change Aspects provides comprehensive and up-to-date literature on carbon capture and storage (CCS) technology and delineates the surface chemistry of this process. Mankind is dependent on energy from gas, oil, coal, atomic energy, and various other sources. In all fossil fuel combustion processes, carbon dioxide (CO2) is produced (ca. 25 Gt/year). In the past few decades, we have observed a constant increase in CO2 content in the air (currently ca. 400 ppm [0.04%]). This book discusses the technology related to carbon (i.e., CO2) capture and sequestration (CCS) from fossil fuel energy plants, which is considered an important means of CO2 control. It also covers the adsorption/absorption processes of CO2 on solids and similar procedures to help address growing climate change concerns.
Scanning Probe Microscopes: Applications in Science and Technology explains, analyzes, and demonstrates the most widely used microscope in the family of microscopes -- the scanning probe microscope. Beginning with an introduction to the development of SPMs, the author introduces the basics of scanning tunneling and atomic force microscopes (STMs an
Climate Change and Carbon Recycling: Surface Chemistry Applications describes the application of surface chemistry methods for carbon capture and recycling in relation to climate change and atmospheric CO2 levels. The text is suitable for online education, with both basic and educational descriptions of the climate change process and carbon recycling methods like the adsorption and absorption of CO2 on solids. This book leads to a better understanding of a complex phenomenon and highlight the importance of CO2 capture and sequestration for the future to enable the utilization of fossil fuels without contributing to atmospheric greenhouse gases. Features This unique volume specifically highlights the surface chemistry aspects of carbon capture and recycling (CCR) Fills the need for an online textbook edition, which provides a basic and educational description of the climate change process and carbon capture/recycling Describes the application of surface chemistry methods for carbon capture and recycling, such as adsorption/absorption of CO2 Discusses the importance of recycling in reducing and controlling the concentration of carbon dioxide in the air (420 ppm: 0.042%) Describes the importance of the technology related to carbon capture/recycling and sequestration (CCS) from fossil fuel energy plants as a means of CO2 control
Self-assembly monolayer (SAM) structures of lipids and macromolecules have been found to play an important role in many industrial and biological phenomena. This book describes two procedures, namely the STM and AFM, that are used to study SAMs at solid surfaces. K.S. Birdi examines the SAMs at both liquid and solid surfaces by using the Langmuir monolayer method. This book is intended for researchers, academics and professionals.
Volume 1 : Ecotourism And Travelogues : The First Volume Of This Book Introduces The Reader To Mountaineering In The Snow-Capped Peaks Like Everest, Nanda Deve, Kanchenjunga, Nanga Parbat, Etc. Indeed, It Is A Thrilling Subject. Tourist Places In Himachal Pradesh, Jammu & Kashmir And Uttarakhand Include Mainly The Buddhist And Hindu Religious Shrines, Besides The Other Places. Volume 2 : Glaciers And Watershed : The Second Volume Of This Book Deals With The Inclement Weather And Other Climatic Conditions Of The Mountainous Regions, Including Snowfall, Rainfall, Glaciers, Eco-System, And River Systems Of Nepal, Uttarakhand, Jammu & Kashmir, Himachal Pradesh And Assam, Etc.
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