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Dendrimers have firmly established their space in the macromolecular field since their first discovery in 1978. These monodispersed and hyperbranched macromolecules present unique properties with demonstrated potential in varied scientific disciplines. Dr. Donald A Tomalia is one of the pioneers in this area whose name is synonym for polyamidoamine (PAMAM) dendrimers, one of the most extensively investigated macromolecular architectures. In this monograph, his colleagues and friends celebrate Don's achievements and contributions to the field, on the occasion of his 80th birthday in 2018, which also coincides with the 40th anniversary of the first report on dendrimers. It provides the reader with excellent reviews on different aspects of dendritic architectures, followed by research articles that explore the state-of-the-art in synthesis, properties and varied applications, including in biology. Collectively, it provides scientists just beginning their careers, as well as firmly established ones, with the pulse of the field and inspiration to continue to explore these intriguing macromolecules.
Dendrimers. --- Macromolecules. --- Molecules --- Supramolecular chemistry --- Dendritic compounds --- Macromolecules
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Boron, a metalloid with rich chemistry, continues to offer a diverse platform in designing novel catalysts and materials for applications in a variety of areas. This book, while celebrating Professor Todd Marder’s contributions to boron chemistry, on the occasion of his 65th birthday in November 2020, highlights and brings into focus some of the important discoveries in this field, through state-of-the-art reviews and research articles
Technology: general issues --- 1,1,1-tri(boryl)alkanes --- 1,2,3-tri(boryl)alkanes --- 1,1,2-tri(boryl)alkanes --- 1,1,2-tri(boryl)alkenes --- synthetic approaches --- synthetic applications --- dicarbollide --- ruthenium --- metallodrug --- kinase inhibitor --- closo-o-carborane --- nido-o-carborane --- intramolecular charge transfer --- deboronation --- color change --- boron --- π-conjugated materials --- opto-electronics --- tetracoordinated --- m-carborane --- electrophilic substitution --- coupling reaction --- organic branches --- Hirshfield Study --- 1,4-bis(trimethylsilyl)-1,4-diaza-2,5-cyclohexadienes --- salt-free reduction --- rotational barrier --- B=N bond --- immobilization of antibodies --- IL-10 --- magnetic nanoparticles --- pre-concentration of antigens --- saliva matrix --- TNF-α --- fluorosulfanyl group --- fluorinated ligands --- phosphines --- rhodium --- iridium --- conjugated hydrocarbon --- isoelectronic molecule --- electronic structure --- quantum chemistry --- singlet-triplet gap --- n/a
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Boron, a metalloid with rich chemistry, continues to offer a diverse platform in designing novel catalysts and materials for applications in a variety of areas. This book, while celebrating Professor Todd Marder’s contributions to boron chemistry, on the occasion of his 65th birthday in November 2020, highlights and brings into focus some of the important discoveries in this field, through state-of-the-art reviews and research articles
1,1,1-tri(boryl)alkanes --- 1,2,3-tri(boryl)alkanes --- 1,1,2-tri(boryl)alkanes --- 1,1,2-tri(boryl)alkenes --- synthetic approaches --- synthetic applications --- dicarbollide --- ruthenium --- metallodrug --- kinase inhibitor --- closo-o-carborane --- nido-o-carborane --- intramolecular charge transfer --- deboronation --- color change --- boron --- π-conjugated materials --- opto-electronics --- tetracoordinated --- m-carborane --- electrophilic substitution --- coupling reaction --- organic branches --- Hirshfield Study --- 1,4-bis(trimethylsilyl)-1,4-diaza-2,5-cyclohexadienes --- salt-free reduction --- rotational barrier --- B=N bond --- immobilization of antibodies --- IL-10 --- magnetic nanoparticles --- pre-concentration of antigens --- saliva matrix --- TNF-α --- fluorosulfanyl group --- fluorinated ligands --- phosphines --- rhodium --- iridium --- conjugated hydrocarbon --- isoelectronic molecule --- electronic structure --- quantum chemistry --- singlet-triplet gap --- n/a
Choose an application
Dendrimers have firmly established their space in the macromolecular field since their first discovery in 1978. These monodispersed and hyperbranched macromolecules present unique properties with demonstrated potential in varied scientific disciplines. Dr. Donald A Tomalia is one of the pioneers in this area whose name is synonym for polyamidoamine (PAMAM) dendrimers, one of the most extensively investigated macromolecular architectures. In this monograph, his colleagues and friends celebrate Don's achievements and contributions to the field, on the occasion of his 80th birthday in 2018, which also coincides with the 40th anniversary of the first report on dendrimers. It provides the reader with excellent reviews on different aspects of dendritic architectures, followed by research articles that explore the state-of-the-art in synthesis, properties and varied applications, including in biology. Collectively, it provides scientists just beginning their careers, as well as firmly established ones, with the pulse of the field and inspiration to continue to explore these intriguing macromolecules.
Choose an application
Boron, a metalloid with rich chemistry, continues to offer a diverse platform in designing novel catalysts and materials for applications in a variety of areas. This book, while celebrating Professor Todd Marder’s contributions to boron chemistry, on the occasion of his 65th birthday in November 2020, highlights and brings into focus some of the important discoveries in this field, through state-of-the-art reviews and research articles
Technology: general issues --- 1,1,1-tri(boryl)alkanes --- 1,2,3-tri(boryl)alkanes --- 1,1,2-tri(boryl)alkanes --- 1,1,2-tri(boryl)alkenes --- synthetic approaches --- synthetic applications --- dicarbollide --- ruthenium --- metallodrug --- kinase inhibitor --- closo-o-carborane --- nido-o-carborane --- intramolecular charge transfer --- deboronation --- color change --- boron --- π-conjugated materials --- opto-electronics --- tetracoordinated --- m-carborane --- electrophilic substitution --- coupling reaction --- organic branches --- Hirshfield Study --- 1,4-bis(trimethylsilyl)-1,4-diaza-2,5-cyclohexadienes --- salt-free reduction --- rotational barrier --- B=N bond --- immobilization of antibodies --- IL-10 --- magnetic nanoparticles --- pre-concentration of antigens --- saliva matrix --- TNF-α --- fluorosulfanyl group --- fluorinated ligands --- phosphines --- rhodium --- iridium --- conjugated hydrocarbon --- isoelectronic molecule --- electronic structure --- quantum chemistry --- singlet-triplet gap
Choose an application
Dendrimers have firmly established their space in the macromolecular field since their first discovery in 1978. These monodispersed and hyperbranched macromolecules present unique properties with demonstrated potential in varied scientific disciplines. Dr. Donald A Tomalia is one of the pioneers in this area whose name is synonym for polyamidoamine (PAMAM) dendrimers, one of the most extensively investigated macromolecular architectures. In this monograph, his colleagues and friends celebrate Don's achievements and contributions to the field, on the occasion of his 80th birthday in 2018, which also coincides with the 40th anniversary of the first report on dendrimers. It provides the reader with excellent reviews on different aspects of dendritic architectures, followed by research articles that explore the state-of-the-art in synthesis, properties and varied applications, including in biology. Collectively, it provides scientists just beginning their careers, as well as firmly established ones, with the pulse of the field and inspiration to continue to explore these intriguing macromolecules.
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