Listing 1 - 5 of 5 |
Sort by
|
Choose an application
Objects of nanotechnology such as micro- and nanoparticles are very interesting due to their unique properties. This reprint will be useful to scientists of diverse backgrounds, i.e., material science, organic and inorganic chemistry, biochemistry, and biology.
Technology: general issues --- electropolymerization --- poly(Azure B) --- poly(proflavine) --- DNA sensor --- doxorubicin determination --- electrochemical impedance spectroscopy --- calix[4]arene --- NHC complex --- Suzuki–Miyaura coupling --- DPPC vesicles --- heparin/protamine particles --- hepatocyte --- intravenous injection --- lacZ protein --- nanoparticles --- protein delivery --- self-assembling --- antiviral agent --- nanoparticle --- coronavirus --- viral mechanism of entry --- antiviral mechanism --- therapeutic approaches --- SARS-CoV-2 --- COVID-19 --- polyol synthesis --- rhodium nanoparticles --- surfactants --- role of additives --- morphology control --- toxicity --- bio-imaging --- X-ray fluorescence --- contrast agent --- XFCT --- nanomaterials --- 2D nanostructures --- thiacalix[4]arene --- terpenoids --- geraniol --- X-ray crystal analysis --- 2D monomolecular-layer nanosheets --- polymorphism --- silica --- polystyrene --- maghemite supraparticles --- patchy particles --- seeded-growth emulsion polymerization --- solvent-induced self-assembly --- pillar[5]arene --- tetrazole --- drug delivery systems --- fluorescein --- ceria --- nanorods --- nanosheets --- nanozyme --- biomolecule --- template --- catalysis --- anti-oxidant --- oxygen radicals --- lithium iron phosphate --- hydrothermal synthesis --- heating rate --- morphology --- crystallinity and purity --- polyelectrolyte multilayers --- encapsulation --- calcium carbonate --- drug delivery --- shrinkage --- layered oxides --- perovskites --- bismuth titanates --- exfoliation --- coating --- silver nanoparticles --- AgNPs --- synthesis --- separation --- purification --- n/a --- Suzuki-Miyaura coupling
Choose an application
The performance-based design of structures in fire is gaining growing interest as a rational alternative to the traditionally adopted prescriptive code approach. This interest has led to its introduction in different codes and standards around the world. Although engineers widely use performance-based methods to design structural components in earthquake engineering, the adoption of such methods in fire engineering is still very limited. This Special Issue addresses this shortcoming by providing engineers with the needed knowledge and recent research activities addressing performance-based design in structural fire engineering, including the use of hotspot analysis to estimate the magnitude of risk to people and property in urban areas; simulations of the evacuation of large crowds; and the identification of fire effects on concrete, steel, and special structures.
fire incidence --- hotspot analysis --- KDE --- Getis-Ord Gi* --- IDW interpolation --- fire risk zones --- built-up areas --- temporal analysis --- sustainable development --- fire --- earthquake --- finite element analysis --- Abaqus --- multi hazard analysis --- Scoria aggregate concrete --- PP fiber --- high temperature --- stress-strain curve --- prefabricated cabin-type substation --- panel --- BP neural network --- thermal–mechanical coupling --- machine learning --- fire behavior --- impact of fires --- repeated impact --- ACI 544-2R --- high temperatures --- ECC --- impact ductility --- oil and gas facility --- offshore platform --- tanker --- steel structure --- bulkhead --- deck --- hydrocarbon fire mode --- fire-resistance limit --- fire protection --- design --- stadiums and arenas --- evacuation time --- safety --- Colosseum --- organizing evacuation --- computer simulation --- City University --- fire temperature --- opening factor --- compartment area --- thermal analysis --- natural fire --- concrete strength --- exposure duration --- maximum temperature --- heating rate --- cooling rate --- reinforced concrete --- columns --- standard fire --- cooling phase --- axial capacity --- temperature-stress history
Choose an application
Objects of nanotechnology such as micro- and nanoparticles are very interesting due to their unique properties. This reprint will be useful to scientists of diverse backgrounds, i.e., material science, organic and inorganic chemistry, biochemistry, and biology.
electropolymerization --- poly(Azure B) --- poly(proflavine) --- DNA sensor --- doxorubicin determination --- electrochemical impedance spectroscopy --- calix[4]arene --- NHC complex --- Suzuki–Miyaura coupling --- DPPC vesicles --- heparin/protamine particles --- hepatocyte --- intravenous injection --- lacZ protein --- nanoparticles --- protein delivery --- self-assembling --- antiviral agent --- nanoparticle --- coronavirus --- viral mechanism of entry --- antiviral mechanism --- therapeutic approaches --- SARS-CoV-2 --- COVID-19 --- polyol synthesis --- rhodium nanoparticles --- surfactants --- role of additives --- morphology control --- toxicity --- bio-imaging --- X-ray fluorescence --- contrast agent --- XFCT --- nanomaterials --- 2D nanostructures --- thiacalix[4]arene --- terpenoids --- geraniol --- X-ray crystal analysis --- 2D monomolecular-layer nanosheets --- polymorphism --- silica --- polystyrene --- maghemite supraparticles --- patchy particles --- seeded-growth emulsion polymerization --- solvent-induced self-assembly --- pillar[5]arene --- tetrazole --- drug delivery systems --- fluorescein --- ceria --- nanorods --- nanosheets --- nanozyme --- biomolecule --- template --- catalysis --- anti-oxidant --- oxygen radicals --- lithium iron phosphate --- hydrothermal synthesis --- heating rate --- morphology --- crystallinity and purity --- polyelectrolyte multilayers --- encapsulation --- calcium carbonate --- drug delivery --- shrinkage --- layered oxides --- perovskites --- bismuth titanates --- exfoliation --- coating --- silver nanoparticles --- AgNPs --- synthesis --- separation --- purification --- n/a --- Suzuki-Miyaura coupling
Choose an application
The performance-based design of structures in fire is gaining growing interest as a rational alternative to the traditionally adopted prescriptive code approach. This interest has led to its introduction in different codes and standards around the world. Although engineers widely use performance-based methods to design structural components in earthquake engineering, the adoption of such methods in fire engineering is still very limited. This Special Issue addresses this shortcoming by providing engineers with the needed knowledge and recent research activities addressing performance-based design in structural fire engineering, including the use of hotspot analysis to estimate the magnitude of risk to people and property in urban areas; simulations of the evacuation of large crowds; and the identification of fire effects on concrete, steel, and special structures.
Research & information: general --- Mathematics & science --- fire incidence --- hotspot analysis --- KDE --- Getis-Ord Gi* --- IDW interpolation --- fire risk zones --- built-up areas --- temporal analysis --- sustainable development --- fire --- earthquake --- finite element analysis --- Abaqus --- multi hazard analysis --- Scoria aggregate concrete --- PP fiber --- high temperature --- stress-strain curve --- prefabricated cabin-type substation --- panel --- BP neural network --- thermal–mechanical coupling --- machine learning --- fire behavior --- impact of fires --- repeated impact --- ACI 544-2R --- high temperatures --- ECC --- impact ductility --- oil and gas facility --- offshore platform --- tanker --- steel structure --- bulkhead --- deck --- hydrocarbon fire mode --- fire-resistance limit --- fire protection --- design --- stadiums and arenas --- evacuation time --- safety --- Colosseum --- organizing evacuation --- computer simulation --- City University --- fire temperature --- opening factor --- compartment area --- thermal analysis --- natural fire --- concrete strength --- exposure duration --- maximum temperature --- heating rate --- cooling rate --- reinforced concrete --- columns --- standard fire --- cooling phase --- axial capacity --- temperature-stress history --- fire incidence --- hotspot analysis --- KDE --- Getis-Ord Gi* --- IDW interpolation --- fire risk zones --- built-up areas --- temporal analysis --- sustainable development --- fire --- earthquake --- finite element analysis --- Abaqus --- multi hazard analysis --- Scoria aggregate concrete --- PP fiber --- high temperature --- stress-strain curve --- prefabricated cabin-type substation --- panel --- BP neural network --- thermal–mechanical coupling --- machine learning --- fire behavior --- impact of fires --- repeated impact --- ACI 544-2R --- high temperatures --- ECC --- impact ductility --- oil and gas facility --- offshore platform --- tanker --- steel structure --- bulkhead --- deck --- hydrocarbon fire mode --- fire-resistance limit --- fire protection --- design --- stadiums and arenas --- evacuation time --- safety --- Colosseum --- organizing evacuation --- computer simulation --- City University --- fire temperature --- opening factor --- compartment area --- thermal analysis --- natural fire --- concrete strength --- exposure duration --- maximum temperature --- heating rate --- cooling rate --- reinforced concrete --- columns --- standard fire --- cooling phase --- axial capacity --- temperature-stress history
Choose an application
Objects of nanotechnology such as micro- and nanoparticles are very interesting due to their unique properties. This reprint will be useful to scientists of diverse backgrounds, i.e., material science, organic and inorganic chemistry, biochemistry, and biology.
Technology: general issues --- electropolymerization --- poly(Azure B) --- poly(proflavine) --- DNA sensor --- doxorubicin determination --- electrochemical impedance spectroscopy --- calix[4]arene --- NHC complex --- Suzuki-Miyaura coupling --- DPPC vesicles --- heparin/protamine particles --- hepatocyte --- intravenous injection --- lacZ protein --- nanoparticles --- protein delivery --- self-assembling --- antiviral agent --- nanoparticle --- coronavirus --- viral mechanism of entry --- antiviral mechanism --- therapeutic approaches --- SARS-CoV-2 --- COVID-19 --- polyol synthesis --- rhodium nanoparticles --- surfactants --- role of additives --- morphology control --- toxicity --- bio-imaging --- X-ray fluorescence --- contrast agent --- XFCT --- nanomaterials --- 2D nanostructures --- thiacalix[4]arene --- terpenoids --- geraniol --- X-ray crystal analysis --- 2D monomolecular-layer nanosheets --- polymorphism --- silica --- polystyrene --- maghemite supraparticles --- patchy particles --- seeded-growth emulsion polymerization --- solvent-induced self-assembly --- pillar[5]arene --- tetrazole --- drug delivery systems --- fluorescein --- ceria --- nanorods --- nanosheets --- nanozyme --- biomolecule --- template --- catalysis --- anti-oxidant --- oxygen radicals --- lithium iron phosphate --- hydrothermal synthesis --- heating rate --- morphology --- crystallinity and purity --- polyelectrolyte multilayers --- encapsulation --- calcium carbonate --- drug delivery --- shrinkage --- layered oxides --- perovskites --- bismuth titanates --- exfoliation --- coating --- silver nanoparticles --- AgNPs --- synthesis --- separation --- purification --- electropolymerization --- poly(Azure B) --- poly(proflavine) --- DNA sensor --- doxorubicin determination --- electrochemical impedance spectroscopy --- calix[4]arene --- NHC complex --- Suzuki-Miyaura coupling --- DPPC vesicles --- heparin/protamine particles --- hepatocyte --- intravenous injection --- lacZ protein --- nanoparticles --- protein delivery --- self-assembling --- antiviral agent --- nanoparticle --- coronavirus --- viral mechanism of entry --- antiviral mechanism --- therapeutic approaches --- SARS-CoV-2 --- COVID-19 --- polyol synthesis --- rhodium nanoparticles --- surfactants --- role of additives --- morphology control --- toxicity --- bio-imaging --- X-ray fluorescence --- contrast agent --- XFCT --- nanomaterials --- 2D nanostructures --- thiacalix[4]arene --- terpenoids --- geraniol --- X-ray crystal analysis --- 2D monomolecular-layer nanosheets --- polymorphism --- silica --- polystyrene --- maghemite supraparticles --- patchy particles --- seeded-growth emulsion polymerization --- solvent-induced self-assembly --- pillar[5]arene --- tetrazole --- drug delivery systems --- fluorescein --- ceria --- nanorods --- nanosheets --- nanozyme --- biomolecule --- template --- catalysis --- anti-oxidant --- oxygen radicals --- lithium iron phosphate --- hydrothermal synthesis --- heating rate --- morphology --- crystallinity and purity --- polyelectrolyte multilayers --- encapsulation --- calcium carbonate --- drug delivery --- shrinkage --- layered oxides --- perovskites --- bismuth titanates --- exfoliation --- coating --- silver nanoparticles --- AgNPs --- synthesis --- separation --- purification
Listing 1 - 5 of 5 |
Sort by
|