Hedgehog-Like Upconversion Crystals: Controlled Growth and Molecular Sensing at Single-Particle Level

Xiaowang Liu; Xiyan Li; Xian Qin; Xiaoji Xie; Ling Huang; Xiaogang Liu

doi:10.1002/adma.201702315

Hedgehog-Like Upconversion Crystals: Controlled Growth and Molecular Sensing at Single-Particle Level

Xiaowang Liu, Xiyan Li, Xian Qin, Xiaoji Xie, Ling Huang, Xiaogang Liu

SCHOOL OF FLEXIBLE ELECTRONICS(FUTURE TECHNOLOGIES)|INSTITUTE OF ADVANCED MATERIALS(IAM)

Research output: Contribution to journal › Article › peer-review

41 Scopus citations

Abstract

Topological control of nanostructures plays a crucial role in understanding the crystal growth process at the nanometer length scale. Here, the scalable synthesis of upconversion materials with distinct hedgehog-like morphologies by a seed-mediated synthetic procedure is reported. It is demonstrated that a close match in the crystal lattice between the core and shell components is essential for synthesizing such hierarchical nanostructures. These optical nanomaterials also enable the development of a single-particle-based platform for high-sensitivity molecular sensing.

Original language	English
Article number	1702315
Journal	Advanced Materials
Volume	29
Issue number	37
DOIs	https://doi.org/10.1002/adma.201702315
State	Published - 4 Oct 2017

Keywords

epitaxial growth
hierarchical control
kinetic synthesis
single-particle sensors
upconversion

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title = "Hedgehog-Like Upconversion Crystals: Controlled Growth and Molecular Sensing at Single-Particle Level",

abstract = "Topological control of nanostructures plays a crucial role in understanding the crystal growth process at the nanometer length scale. Here, the scalable synthesis of upconversion materials with distinct hedgehog-like morphologies by a seed-mediated synthetic procedure is reported. It is demonstrated that a close match in the crystal lattice between the core and shell components is essential for synthesizing such hierarchical nanostructures. These optical nanomaterials also enable the development of a single-particle-based platform for high-sensitivity molecular sensing.",

keywords = "epitaxial growth, hierarchical control, kinetic synthesis, single-particle sensors, upconversion",

author = "Xiaowang Liu and Xiyan Li and Xian Qin and Xiaoji Xie and Ling Huang and Xiaogang Liu",

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AU - Liu, Xiaowang

AU - Li, Xiyan

AU - Qin, Xian

AU - Xie, Xiaoji

AU - Huang, Ling

AU - Liu, Xiaogang

PY - 2017/10/4

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AB - Topological control of nanostructures plays a crucial role in understanding the crystal growth process at the nanometer length scale. Here, the scalable synthesis of upconversion materials with distinct hedgehog-like morphologies by a seed-mediated synthetic procedure is reported. It is demonstrated that a close match in the crystal lattice between the core and shell components is essential for synthesizing such hierarchical nanostructures. These optical nanomaterials also enable the development of a single-particle-based platform for high-sensitivity molecular sensing.

KW - epitaxial growth

KW - hierarchical control

KW - kinetic synthesis

KW - single-particle sensors

KW - upconversion

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Hedgehog-Like Upconversion Crystals: Controlled Growth and Molecular Sensing at Single-Particle Level

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Keywords

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