國立虎尾科技大學 |

Design, synthesis and applications of one-dimensional chalcogenide hetero-nanostructures = novel metal sulfide hetero-nanorods for enhancing solar energy conversion /

紀錄類型:	書目-語言資料,印刷品 : Monograph/item
正題名/作者:	Design, synthesis and applications of one-dimensional chalcogenide hetero-nanostructures/ by Tao-Tao Zhuang.
其他題名:	novel metal sulfide hetero-nanorods for enhancing solar energy conversion /
作者:	Zhuang, Tao-Tao.
出版者:	Singapore :Springer Singapore : : 2018.,
面頁冊數:	xii, 111 p. :ill. (some col.), digital ; : 24 cm.;
Contained By:	Springer eBooks
標題:	Nanostructured materials. -
電子資源:	http://dx.doi.org/10.1007/978-981-13-0188-9
ISBN:	9789811301889

Design, synthesis and applications of one-dimensional chalcogenide hetero-nanostructures = novel metal sulfide hetero-nanorods for enhancing solar energy conversion /
Zhuang, Tao-Tao.

Design, synthesis and applications of one-dimensional chalcogenide hetero-nanostructuresnovel metal sulfide hetero-nanorods for enhancing solar energy conversion /[electronic resource] :by Tao-Tao Zhuang. - Singapore :Springer Singapore :2018. - xii, 111 p. :ill. (some col.), digital ;24 cm. - Springer theses,2190-5053. - Springer theses..

Research progress of one-dimensional chalcogenide hetero-nanostructures -- Seed-mediated growth of binary sulfide hetero-nanostructures -- Steering the charge flow in ternary semiconductor-(semiconductor/metal) hetero-nanorods by unique architecture design -- Post-synthetic processing technology based on novel multi-node sheath hetero-nanorods for performance enhancement -- Integration of semiconducting sulfides for full-spectrum solar energy absorption and efficient charge separation.

This thesis focuses on the design and synthesis of novel one-dimensional colloidal chalcogenide hetero-nanostructures for enhancing solar energy conversion applications. Semiconducting nanomaterials are particular attractive for energy conversion due to the quantum confinement effects dictating their unique optical and electronic properties. Steering the photo-induced charge-flow based on unique bandgap alignment in semiconductor heterojunctions is critical for photo-electric/chemical conversion. The author presents the controllable preparation strategies to synthesize 1D chalcogenide hetero-nanostructures with various fine structures, further been used as excellent template materials for preparing other novel and complex hybrid architectures through a series of chemical transformations. The heterogeneous growth mechanisms of novel hetero-nanostructures is studied for developing a facile and general method to prepare more novel heterostructures. The band gap structure simulations, detailed charge carrier behaviour and unique solar energy conversion properties of the prepared hybrid nanostructures are deeply investigated. This work would open a new door to rationally designing hybrid systems for photo-induced applications.

ISBN: 9789811301889

Standard No.: 10.1007/978-981-13-0188-9doiSubjects--Topical Terms:

557162
Nanostructured materials.

LC Class. No.: TA418.9.N35 / Z483 2018

Dewey Class. No.: 620.115

Design, synthesis and applications of one-dimensional chalcogenide hetero-nanostructures = novel metal sulfide hetero-nanorods for enhancing solar energy conversion /
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520 $a This thesis focuses on the design and synthesis of novel one-dimensional colloidal chalcogenide hetero-nanostructures for enhancing solar energy conversion applications. Semiconducting nanomaterials are particular attractive for energy conversion due to the quantum confinement effects dictating their unique optical and electronic properties. Steering the photo-induced charge-flow based on unique bandgap alignment in semiconductor heterojunctions is critical for photo-electric/chemical conversion. The author presents the controllable preparation strategies to synthesize 1D chalcogenide hetero-nanostructures with various fine structures, further been used as excellent template materials for preparing other novel and complex hybrid architectures through a series of chemical transformations. The heterogeneous growth mechanisms of novel hetero-nanostructures is studied for developing a facile and general method to prepare more novel heterostructures. The band gap structure simulations, detailed charge carrier behaviour and unique solar energy conversion properties of the prepared hybrid nanostructures are deeply investigated. This work would open a new door to rationally designing hybrid systems for photo-induced applications.
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