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The overarching goal of this book is to provide a current picture of the latest developments in the capabilities of biomedical photoacoustic imaging and sensing in an affordable setting, such as advances in the technology involving light sources, and delivery, acoustic detection, and image reconstruction and processing algorithms. This book includes 14 chapters from globally prominent researchers , covering a comprehensive spectrum of photoacoustic imaging topics from technology developments and novel imaging methods to preclinical and clinical studies, predominantly in a cost-effective setting. Affordability is undoubtedly an important factor to be considered in the following years to help translate photoacoustic imaging to clinics around the globe. This first-ever book focused on biomedical photoacoustic imaging and sensing using affordable resources is thus timely, especially considering the fact that this technique is facing an exciting transition from benchtop to bedside. Given its scope, the book will appeal to scientists and engineers in academia and industry, as well as medical experts interested in the clinical applications of photoacoustic imaging.
photoacoustic microscopy --- ultrasonic transducer --- optical-resolution photoacoustic microscopy --- transparent ultrasound transducer --- ultrasound stimulation --- photoacoustic --- LED --- clinic --- optical imaging --- tomography --- ultrasound --- small animal --- liver --- fibrosis --- optoacoustic --- spectral imaging --- blind source separation --- unsupervised unmixing --- photoacoustic imaging --- 3-D printed photoacoustic probe holder --- light delivery optimization --- LED divergence --- illumination scheme --- in vivo --- mouse --- Monte Carlo --- linear array --- tumor imaging --- LED-based photoacoustic imaging --- hair follicles --- FUE --- FUT --- photoacoustic computed tomography --- light-emitting diodes --- laser diodes --- oxygen saturation imaging --- photoacoustics --- fluence compensation --- hypoxia --- deep tissue imaging --- hemangioma --- laser --- light-emitting diodes (LED) --- mobile health --- peripheral arterial disease --- stroke --- vascular malformations --- signal enhancement --- pre-illumination --- photo-thermal effect --- heat capacity --- remote sensing --- endoscopy --- speckle --- n/a
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The overarching goal of this book is to provide a current picture of the latest developments in the capabilities of biomedical photoacoustic imaging and sensing in an affordable setting, such as advances in the technology involving light sources, and delivery, acoustic detection, and image reconstruction and processing algorithms. This book includes 14 chapters from globally prominent researchers , covering a comprehensive spectrum of photoacoustic imaging topics from technology developments and novel imaging methods to preclinical and clinical studies, predominantly in a cost-effective setting. Affordability is undoubtedly an important factor to be considered in the following years to help translate photoacoustic imaging to clinics around the globe. This first-ever book focused on biomedical photoacoustic imaging and sensing using affordable resources is thus timely, especially considering the fact that this technique is facing an exciting transition from benchtop to bedside. Given its scope, the book will appeal to scientists and engineers in academia and industry, as well as medical experts interested in the clinical applications of photoacoustic imaging.
Medicine --- photoacoustic microscopy --- ultrasonic transducer --- optical-resolution photoacoustic microscopy --- transparent ultrasound transducer --- ultrasound stimulation --- photoacoustic --- LED --- clinic --- optical imaging --- tomography --- ultrasound --- small animal --- liver --- fibrosis --- optoacoustic --- spectral imaging --- blind source separation --- unsupervised unmixing --- photoacoustic imaging --- 3-D printed photoacoustic probe holder --- light delivery optimization --- LED divergence --- illumination scheme --- in vivo --- mouse --- Monte Carlo --- linear array --- tumor imaging --- LED-based photoacoustic imaging --- hair follicles --- FUE --- FUT --- photoacoustic computed tomography --- light-emitting diodes --- laser diodes --- oxygen saturation imaging --- photoacoustics --- fluence compensation --- hypoxia --- deep tissue imaging --- hemangioma --- laser --- light-emitting diodes (LED) --- mobile health --- peripheral arterial disease --- stroke --- vascular malformations --- signal enhancement --- pre-illumination --- photo-thermal effect --- heat capacity --- remote sensing --- endoscopy --- speckle --- photoacoustic microscopy --- ultrasonic transducer --- optical-resolution photoacoustic microscopy --- transparent ultrasound transducer --- ultrasound stimulation --- photoacoustic --- LED --- clinic --- optical imaging --- tomography --- ultrasound --- small animal --- liver --- fibrosis --- optoacoustic --- spectral imaging --- blind source separation --- unsupervised unmixing --- photoacoustic imaging --- 3-D printed photoacoustic probe holder --- light delivery optimization --- LED divergence --- illumination scheme --- in vivo --- mouse --- Monte Carlo --- linear array --- tumor imaging --- LED-based photoacoustic imaging --- hair follicles --- FUE --- FUT --- photoacoustic computed tomography --- light-emitting diodes --- laser diodes --- oxygen saturation imaging --- photoacoustics --- fluence compensation --- hypoxia --- deep tissue imaging --- hemangioma --- laser --- light-emitting diodes (LED) --- mobile health --- peripheral arterial disease --- stroke --- vascular malformations --- signal enhancement --- pre-illumination --- photo-thermal effect --- heat capacity --- remote sensing --- endoscopy --- speckle
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Homogeneous catalysis owes its success, in large part, to the development of a wide range of ligands with well-defined electronic and steric properties, which have thus made it possible to adjust the behavior of many organometallic complexes. However, ligands used in catalysis have long been centered on elements of group 15, and it is only more recently that carbon ligands have proved to be valuable alternatives with the emergence of cyclic diaminocarbenes (NHC).This Special Issue aims to provide a contemporary overview of the advances in carbon ligand chemistry from fundamental aspects to applications.
Research & information: general --- carbenes --- ylides --- DFT calculations --- electronic structure --- catalysis --- ligands --- structure–activity relationship --- NHC --- nanoparticle --- calixarene --- palladium catalyst --- Suzuki-Miyaura reaction --- amino-acids --- water --- carbon ligand --- amide --- negative charge --- phosphonium ylide --- oxide --- pincer --- metathesis --- ruthenium --- nitro catalysts --- NHC ligands --- olefins --- selenonium ylides --- selenonium salts --- chirality --- stereogenic selenium atom --- asymmetric synthesis --- optical resolution --- reactivity --- malaria --- Plasmodium falciparum --- gold --- NHC-ligands --- hybrid molecules --- drug resistance --- N-heterocyclic carbene --- platinum --- metal complexes --- 195Pt NMR --- N-heterocyclic carbenes --- imidazole --- spectroscopy --- X-ray --- mercury(II) complex --- T-shaped --- carbodiphosphorane --- phosphorus ylides --- pincer ligands --- coordination chemistry --- Cu(I) complex --- photoluminescence --- titanium --- hafnium --- copolymerization of epoxide with CO2 --- density functional theory --- natural bond orbitals --- aromaticity --- ion pairs --- alkali metals --- tropylidenyl ions --- cyclooctatetraene ions --- rhodium --- electron paramagnetic resonance (EPR) spectroscopy --- density functional theory (DFT) --- electrochemistry --- carbone complexes --- carbido complexes --- transition metal complexes --- chemical bonding --- pincer ligand --- macrocycle --- lithium --- potassium --- intramolecular C-H activation --- dehydrogenation --- carbone --- ligand --- germylene --- coordination --- ylide --- n/a --- structure-activity relationship
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Homogeneous catalysis owes its success, in large part, to the development of a wide range of ligands with well-defined electronic and steric properties, which have thus made it possible to adjust the behavior of many organometallic complexes. However, ligands used in catalysis have long been centered on elements of group 15, and it is only more recently that carbon ligands have proved to be valuable alternatives with the emergence of cyclic diaminocarbenes (NHC).This Special Issue aims to provide a contemporary overview of the advances in carbon ligand chemistry from fundamental aspects to applications.
carbenes --- ylides --- DFT calculations --- electronic structure --- catalysis --- ligands --- structure–activity relationship --- NHC --- nanoparticle --- calixarene --- palladium catalyst --- Suzuki-Miyaura reaction --- amino-acids --- water --- carbon ligand --- amide --- negative charge --- phosphonium ylide --- oxide --- pincer --- metathesis --- ruthenium --- nitro catalysts --- NHC ligands --- olefins --- selenonium ylides --- selenonium salts --- chirality --- stereogenic selenium atom --- asymmetric synthesis --- optical resolution --- reactivity --- malaria --- Plasmodium falciparum --- gold --- NHC-ligands --- hybrid molecules --- drug resistance --- N-heterocyclic carbene --- platinum --- metal complexes --- 195Pt NMR --- N-heterocyclic carbenes --- imidazole --- spectroscopy --- X-ray --- mercury(II) complex --- T-shaped --- carbodiphosphorane --- phosphorus ylides --- pincer ligands --- coordination chemistry --- Cu(I) complex --- photoluminescence --- titanium --- hafnium --- copolymerization of epoxide with CO2 --- density functional theory --- natural bond orbitals --- aromaticity --- ion pairs --- alkali metals --- tropylidenyl ions --- cyclooctatetraene ions --- rhodium --- electron paramagnetic resonance (EPR) spectroscopy --- density functional theory (DFT) --- electrochemistry --- carbone complexes --- carbido complexes --- transition metal complexes --- chemical bonding --- pincer ligand --- macrocycle --- lithium --- potassium --- intramolecular C-H activation --- dehydrogenation --- carbone --- ligand --- germylene --- coordination --- ylide --- n/a --- structure-activity relationship
Choose an application
Homogeneous catalysis owes its success, in large part, to the development of a wide range of ligands with well-defined electronic and steric properties, which have thus made it possible to adjust the behavior of many organometallic complexes. However, ligands used in catalysis have long been centered on elements of group 15, and it is only more recently that carbon ligands have proved to be valuable alternatives with the emergence of cyclic diaminocarbenes (NHC).This Special Issue aims to provide a contemporary overview of the advances in carbon ligand chemistry from fundamental aspects to applications.
Research & information: general --- carbenes --- ylides --- DFT calculations --- electronic structure --- catalysis --- ligands --- structure-activity relationship --- NHC --- nanoparticle --- calixarene --- palladium catalyst --- Suzuki-Miyaura reaction --- amino-acids --- water --- carbon ligand --- amide --- negative charge --- phosphonium ylide --- oxide --- pincer --- metathesis --- ruthenium --- nitro catalysts --- NHC ligands --- olefins --- selenonium ylides --- selenonium salts --- chirality --- stereogenic selenium atom --- asymmetric synthesis --- optical resolution --- reactivity --- malaria --- Plasmodium falciparum --- gold --- NHC-ligands --- hybrid molecules --- drug resistance --- N-heterocyclic carbene --- platinum --- metal complexes --- 195Pt NMR --- N-heterocyclic carbenes --- imidazole --- spectroscopy --- X-ray --- mercury(II) complex --- T-shaped --- carbodiphosphorane --- phosphorus ylides --- pincer ligands --- coordination chemistry --- Cu(I) complex --- photoluminescence --- titanium --- hafnium --- copolymerization of epoxide with CO2 --- density functional theory --- natural bond orbitals --- aromaticity --- ion pairs --- alkali metals --- tropylidenyl ions --- cyclooctatetraene ions --- rhodium --- electron paramagnetic resonance (EPR) spectroscopy --- density functional theory (DFT) --- electrochemistry --- carbone complexes --- carbido complexes --- transition metal complexes --- chemical bonding --- pincer ligand --- macrocycle --- lithium --- potassium --- intramolecular C-H activation --- dehydrogenation --- carbone --- ligand --- germylene --- coordination --- ylide --- carbenes --- ylides --- DFT calculations --- electronic structure --- catalysis --- ligands --- structure-activity relationship --- NHC --- nanoparticle --- calixarene --- palladium catalyst --- Suzuki-Miyaura reaction --- amino-acids --- water --- carbon ligand --- amide --- negative charge --- phosphonium ylide --- oxide --- pincer --- metathesis --- ruthenium --- nitro catalysts --- NHC ligands --- olefins --- selenonium ylides --- selenonium salts --- chirality --- stereogenic selenium atom --- asymmetric synthesis --- optical resolution --- reactivity --- malaria --- Plasmodium falciparum --- gold --- NHC-ligands --- hybrid molecules --- drug resistance --- N-heterocyclic carbene --- platinum --- metal complexes --- 195Pt NMR --- N-heterocyclic carbenes --- imidazole --- spectroscopy --- X-ray --- mercury(II) complex --- T-shaped --- carbodiphosphorane --- phosphorus ylides --- pincer ligands --- coordination chemistry --- Cu(I) complex --- photoluminescence --- titanium --- hafnium --- copolymerization of epoxide with CO2 --- density functional theory --- natural bond orbitals --- aromaticity --- ion pairs --- alkali metals --- tropylidenyl ions --- cyclooctatetraene ions --- rhodium --- electron paramagnetic resonance (EPR) spectroscopy --- density functional theory (DFT) --- electrochemistry --- carbone complexes --- carbido complexes --- transition metal complexes --- chemical bonding --- pincer ligand --- macrocycle --- lithium --- potassium --- intramolecular C-H activation --- dehydrogenation --- carbone --- ligand --- germylene --- coordination --- ylide
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