LOCATED in GuizhouProvince, southwesternChina, Qianxinan Bouyei-Miao AutonomousPrefecture is a tourist destination,due to its extraordinary naturalenvironment and distinctive
Halide perovskites have become a hot topic in materials research due to their potential applications in a variety of fields,from optoelectronic and thermoelectric devices to solar cells.Doping of halide perovskites ca...Halide perovskites have become a hot topic in materials research due to their potential applications in a variety of fields,from optoelectronic and thermoelectric devices to solar cells.Doping of halide perovskites can be achieved by introducing different types of dopants,such as metal cations,anions,and organic molecules,leading to increased stability and improved optoelectronic properties.Moreover,doping can introduce new functionalities,such as increased spin lifetime and thermal stability.These features make doped halide perovskites a highly promising candidate for optoelectronic applications.In this mini-review,we highlight the latest advances in ion-doped halide perovskites and their immense potential for various applications.展开更多
Lanthanide-based photonic materials have been extensively explored for use in laser crystals,lighting,fiber-optic communications,bioimaging,diagnostics,and many other fields.In recent years,they have enabled numerous ...Lanthanide-based photonic materials have been extensively explored for use in laser crystals,lighting,fiber-optic communications,bioimaging,diagnostics,and many other fields.In recent years,they have enabled numerous breakthroughs in areas such as single-particle spectroscopy,super-resolution imaging,micro-lasing,lifetime multiplexing,and detection.Here,we summarize recent advances in lanthanide photonic materials from an energy state perspective,focusing on the interplay between energy state manipulation and advanced photonic applications.We then discuss the challenges and prospects for controlling energy states at the single-particle level.We wish to highlight the importance of quantifying and understanding the energy states of lanthanides for future innovations.展开更多
文摘LOCATED in GuizhouProvince, southwesternChina, Qianxinan Bouyei-Miao AutonomousPrefecture is a tourist destination,due to its extraordinary naturalenvironment and distinctive
基金supported by the Singapore Quantum engineering program(grant no.RF2021-QEP2-03-P10)the National Research Foundation,the Prime Minister’s Office,and the government of Singapore under its Competitive Research Programme(award no.NRF-CRP23-2019-0002)its NRF Investigatorship Programme(award no.NRF-NRFI05-2019-0003).
文摘Halide perovskites have become a hot topic in materials research due to their potential applications in a variety of fields,from optoelectronic and thermoelectric devices to solar cells.Doping of halide perovskites can be achieved by introducing different types of dopants,such as metal cations,anions,and organic molecules,leading to increased stability and improved optoelectronic properties.Moreover,doping can introduce new functionalities,such as increased spin lifetime and thermal stability.These features make doped halide perovskites a highly promising candidate for optoelectronic applications.In this mini-review,we highlight the latest advances in ion-doped halide perovskites and their immense potential for various applications.
基金supported by the National Research Foundationthe Prime Minister's Office of Singapore under its Competitive Research Program(NRF-CRP23-2019-0002)+2 种基金NRF Investigatorship Programme(NRF-NRFI05-2019-0003)the RIE2025 Manufacturing,Trade and Connectivity(MTC)Programmatic Fund(M21J9b0085)the King Abdullah University of Science and Technology(KAUST)Office of Sponsored Research(OSR-2018-CRG7-3736)。
文摘Lanthanide-based photonic materials have been extensively explored for use in laser crystals,lighting,fiber-optic communications,bioimaging,diagnostics,and many other fields.In recent years,they have enabled numerous breakthroughs in areas such as single-particle spectroscopy,super-resolution imaging,micro-lasing,lifetime multiplexing,and detection.Here,we summarize recent advances in lanthanide photonic materials from an energy state perspective,focusing on the interplay between energy state manipulation and advanced photonic applications.We then discuss the challenges and prospects for controlling energy states at the single-particle level.We wish to highlight the importance of quantifying and understanding the energy states of lanthanides for future innovations.
