TY - JOUR
T1 - Synthesis, Properties, and Applications of Hollow Micro-/Nanostructures
AU - Wang, Xiaojing
AU - Feng, Ji
AU - Bai, Yaocai
AU - Zhang, Qiao
AU - Yin, Yadong
N1 - Publisher Copyright:
© 2016 American Chemical Society.
PY - 2016/9/28
Y1 - 2016/9/28
N2 - In this Review, we aim to provide an updated summary of the research related to hollow micro- and nanostructures, covering both their synthesis and their applications. After a brief introduction to the definition and classification of the hollow micro-/nanostructures, we discuss various synthetic strategies that can be grouped into three major categories, including hard templating, soft templating, and self-templating synthesis. For both hard and soft templating strategies, we focus on how different types of templates are generated and then used for creating hollow structures. At the end of each section, the structural and morphological control over the product is discussed. For the self-templating strategy, we survey a number of unconventional synthetic methods, such as surface-protected etching, Ostwald ripening, the Kirkendall effect, and galvanic replacement. We then discuss the unique properties and niche applications of the hollow structures in diverse fields, including micro-/nanocontainers and reactors, optical properties and applications, magnetic properties, energy storage, catalysis, biomedical applications, environmental remediation, and sensors. Finally, we provide a perspective on future development in the research relevant to hollow micro-/nanostructures.
AB - In this Review, we aim to provide an updated summary of the research related to hollow micro- and nanostructures, covering both their synthesis and their applications. After a brief introduction to the definition and classification of the hollow micro-/nanostructures, we discuss various synthetic strategies that can be grouped into three major categories, including hard templating, soft templating, and self-templating synthesis. For both hard and soft templating strategies, we focus on how different types of templates are generated and then used for creating hollow structures. At the end of each section, the structural and morphological control over the product is discussed. For the self-templating strategy, we survey a number of unconventional synthetic methods, such as surface-protected etching, Ostwald ripening, the Kirkendall effect, and galvanic replacement. We then discuss the unique properties and niche applications of the hollow structures in diverse fields, including micro-/nanocontainers and reactors, optical properties and applications, magnetic properties, energy storage, catalysis, biomedical applications, environmental remediation, and sensors. Finally, we provide a perspective on future development in the research relevant to hollow micro-/nanostructures.
UR - http://www.scopus.com/inward/record.url?scp=84989315044&partnerID=8YFLogxK
U2 - 10.1021/acs.chemrev.5b00731
DO - 10.1021/acs.chemrev.5b00731
M3 - Review article
AN - SCOPUS:84989315044
SN - 0009-2665
VL - 116
SP - 10983
EP - 11060
JO - Chemical Reviews
JF - Chemical Reviews
IS - 18
ER -