Energy Aggregation for Illuminating Upconversion Multicolor Emission Based on Ho<sup>3+</sup> Ions

Energy Aggregation for Illuminating Upconversion Multicolor Emission Based on Ho<sup>3+</sup> Ions

Lanthanide-doped upconversion luminescent nanoparticles (UCNPs) have garnered extensive attention due to their notable anti-Stokes shifts and superior photostability. Notably, Ho<sup>3+</sup>-based UCNPs present a complex energy level configuration, which poses challenges in augmenting t...

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محفوظ في:
التفاصيل البيبلوغرافية
المؤلف الرئيسي: Xiaoyu Meng (2681518) (author)
مؤلفون آخرون: Tao Shen (209797) (author), Wenbo Zhang (498386) (author), Ran Luo (3485810) (author), Jiangjie Zhou (12855674) (author), Ruotong Liao (20591119) (author), Ruibo Zhao (9400862) (author), Cong Cao (281298) (author)
منشور في: 2025
الموضوعات:
Biophysics
Biochemistry
Physiology
Biotechnology
Ecology
Inorganic Chemistry
Science Policy
Space Science
Biological Sciences not elsewhere classified
Chemical Sciences not elsewhere classified
Physical Sciences not elsewhere classified
precisely controlled sensitizers
photon absorption ability
different solution environments
upconversion luminescence intensity
excitation light energy
enhancing upconversion luminescence
energy utilization efficiency
rational design strategy
3 +</ sup
upconversion luminescence
luminescence efficiency
energy aggregation
red light
efficient absorption
aqueous solution
superior photostability
stokes shifts
poses challenges
notable anti
hydroxyl vibration
attenuation effect
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_version_ 1852023421027745792
author Xiaoyu Meng (2681518)
author2 Tao Shen (209797)
Wenbo Zhang (498386)
Ran Luo (3485810)
Jiangjie Zhou (12855674)
Ruotong Liao (20591119)
Ruibo Zhao (9400862)
Cong Cao (281298)
author2_role author
author
author
author
author
author
author
author_facet Xiaoyu Meng (2681518)
Tao Shen (209797)
Wenbo Zhang (498386)
Ran Luo (3485810)
Jiangjie Zhou (12855674)
Ruotong Liao (20591119)
Ruibo Zhao (9400862)
Cong Cao (281298)
author_role author
dc.creator.none.fl_str_mv Xiaoyu Meng (2681518)
Tao Shen (209797)
Wenbo Zhang (498386)
Ran Luo (3485810)
Jiangjie Zhou (12855674)
Ruotong Liao (20591119)
Ruibo Zhao (9400862)
Cong Cao (281298)
dc.date.none.fl_str_mv 2025-01-21T14:05:30Z
dc.identifier.none.fl_str_mv 10.1021/acsami.4c18871.s001
dc.relation.none.fl_str_mv https://figshare.com/articles/media/Energy_Aggregation_for_Illuminating_Upconversion_Multicolor_Emission_Based_on_Ho_sup_3_sup_Ions/28248028
dc.rights.none.fl_str_mv CC BY-NC 4.0
info:eu-repo/semantics/openAccess
dc.subject.none.fl_str_mv Biophysics
Biochemistry
Physiology
Biotechnology
Ecology
Inorganic Chemistry
Science Policy
Space Science
Biological Sciences not elsewhere classified
Chemical Sciences not elsewhere classified
Physical Sciences not elsewhere classified
precisely controlled sensitizers
photon absorption ability
different solution environments
upconversion luminescence intensity
excitation light energy
enhancing upconversion luminescence
energy utilization efficiency
rational design strategy
3 +</ sup
upconversion luminescence
luminescence efficiency
energy aggregation
red light
efficient absorption
aqueous solution
superior photostability
stokes shifts
poses challenges
notable anti
hydroxyl vibration
attenuation effect
dc.title.none.fl_str_mv Energy Aggregation for Illuminating Upconversion Multicolor Emission Based on Ho<sup>3+</sup> Ions
dc.type.none.fl_str_mv Dataset
Media
info:eu-repo/semantics/publishedVersion
dataset
description Lanthanide-doped upconversion luminescent nanoparticles (UCNPs) have garnered extensive attention due to their notable anti-Stokes shifts and superior photostability. Notably, Ho<sup>3+</sup>-based UCNPs present a complex energy level configuration, which poses challenges in augmenting their luminescence efficiency. Herein, a rational design strategy was used to enhance the upconversion luminescence intensity of Ho<sup>3+</sup> ions by improving the photon absorption ability and energy utilization efficiency. Efficient absorption and transfer of excitation light energy were achieved through carefully selected host materials, precisely controlled sensitizers, and the design of external energy antennas using organic dyes, enhancing upconversion luminescence. Due to the attenuation effect of hydroxyl vibration on upconversion luminescence, the nanomaterials exhibit multicolor luminescent characteristics in different solution environments. Significantly, the composites exhibit intense upconversion of red light in aqueous solution, showing great application potential in biomedicine and colorimetry.
eu_rights_str_mv openAccess
id Manara_042cd17fdfa7daf97e8b0faeda72e18a
identifier_str_mv 10.1021/acsami.4c18871.s001
network_acronym_str Manara
network_name_str ManaraRepo
oai_identifier_str oai:figshare.com:article/28248028
publishDate 2025
repository.mail.fl_str_mv
repository.name.fl_str_mv
repository_id_str
rights_invalid_str_mv CC BY-NC 4.0
spelling Energy Aggregation for Illuminating Upconversion Multicolor Emission Based on Ho<sup>3+</sup> IonsXiaoyu Meng (2681518)Tao Shen (209797)Wenbo Zhang (498386)Ran Luo (3485810)Jiangjie Zhou (12855674)Ruotong Liao (20591119)Ruibo Zhao (9400862)Cong Cao (281298)BiophysicsBiochemistryPhysiologyBiotechnologyEcologyInorganic ChemistryScience PolicySpace ScienceBiological Sciences not elsewhere classifiedChemical Sciences not elsewhere classifiedPhysical Sciences not elsewhere classifiedprecisely controlled sensitizersphoton absorption abilitydifferent solution environmentsupconversion luminescence intensityexcitation light energyenhancing upconversion luminescenceenergy utilization efficiencyrational design strategy3 +</ supupconversion luminescenceluminescence efficiencyenergy aggregationred lightefficient absorptionaqueous solutionsuperior photostabilitystokes shiftsposes challengesnotable antihydroxyl vibrationattenuation effectLanthanide-doped upconversion luminescent nanoparticles (UCNPs) have garnered extensive attention due to their notable anti-Stokes shifts and superior photostability. Notably, Ho<sup>3+</sup>-based UCNPs present a complex energy level configuration, which poses challenges in augmenting their luminescence efficiency. Herein, a rational design strategy was used to enhance the upconversion luminescence intensity of Ho<sup>3+</sup> ions by improving the photon absorption ability and energy utilization efficiency. Efficient absorption and transfer of excitation light energy were achieved through carefully selected host materials, precisely controlled sensitizers, and the design of external energy antennas using organic dyes, enhancing upconversion luminescence. Due to the attenuation effect of hydroxyl vibration on upconversion luminescence, the nanomaterials exhibit multicolor luminescent characteristics in different solution environments. Significantly, the composites exhibit intense upconversion of red light in aqueous solution, showing great application potential in biomedicine and colorimetry.2025-01-21T14:05:30ZDatasetMediainfo:eu-repo/semantics/publishedVersiondataset10.1021/acsami.4c18871.s001https://figshare.com/articles/media/Energy_Aggregation_for_Illuminating_Upconversion_Multicolor_Emission_Based_on_Ho_sup_3_sup_Ions/28248028CC BY-NC 4.0info:eu-repo/semantics/openAccessoai:figshare.com:article/282480282025-01-21T14:05:30Z
spellingShingle Energy Aggregation for Illuminating Upconversion Multicolor Emission Based on Ho<sup>3+</sup> Ions
Xiaoyu Meng (2681518)
Biophysics
Biochemistry
Physiology
Biotechnology
Ecology
Inorganic Chemistry
Science Policy
Space Science
Biological Sciences not elsewhere classified
Chemical Sciences not elsewhere classified
Physical Sciences not elsewhere classified
precisely controlled sensitizers
photon absorption ability
different solution environments
upconversion luminescence intensity
excitation light energy
enhancing upconversion luminescence
energy utilization efficiency
rational design strategy
3 +</ sup
upconversion luminescence
luminescence efficiency
energy aggregation
red light
efficient absorption
aqueous solution
superior photostability
stokes shifts
poses challenges
notable anti
hydroxyl vibration
attenuation effect
status_str publishedVersion
title Energy Aggregation for Illuminating Upconversion Multicolor Emission Based on Ho<sup>3+</sup> Ions
title_full Energy Aggregation for Illuminating Upconversion Multicolor Emission Based on Ho<sup>3+</sup> Ions
title_fullStr Energy Aggregation for Illuminating Upconversion Multicolor Emission Based on Ho<sup>3+</sup> Ions
title_full_unstemmed Energy Aggregation for Illuminating Upconversion Multicolor Emission Based on Ho<sup>3+</sup> Ions
title_short Energy Aggregation for Illuminating Upconversion Multicolor Emission Based on Ho<sup>3+</sup> Ions
title_sort Energy Aggregation for Illuminating Upconversion Multicolor Emission Based on Ho<sup>3+</sup> Ions
topic Biophysics
Biochemistry
Physiology
Biotechnology
Ecology
Inorganic Chemistry
Science Policy
Space Science
Biological Sciences not elsewhere classified
Chemical Sciences not elsewhere classified
Physical Sciences not elsewhere classified
precisely controlled sensitizers
photon absorption ability
different solution environments
upconversion luminescence intensity
excitation light energy
enhancing upconversion luminescence
energy utilization efficiency
rational design strategy
3 +</ sup
upconversion luminescence
luminescence efficiency
energy aggregation
red light
efficient absorption
aqueous solution
superior photostability
stokes shifts
poses challenges
notable anti
hydroxyl vibration
attenuation effect

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