Metastable gamma-MnS hierarchical architectures: Synthesis, characterization, and growth mechanism

Zheng YH; Cheng Y; Wang YS; Zhou LH; Bao F; Jia C

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Metastable gamma-MnS hierarchical architectures: Synthesis, characterization, and growth mechanism

机译：亚稳γ-MnS分层体系结构：合成，表征和增长机制

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Preparation of shape-controlled metastable gamma-MnS semiconductor nanocrystals has been achieved on a large scale through a simple solvothermal method in the presence of PVP. The key strategy is the use of sulfur powder as sulfur source in ethylene glycol (EG) solvent that also acted as a weak reducing agent. Reaction parameters such as reaction time and temperature are found to be important in controlling various hierarchical architectures, such as homogeneous semi-hollow core-shell, hollow nanospheres, and nanowires. Transmission electron microscopy observations indicate that these hierarchical architectures are formed mainly via Ostwald ripening. The optical absorption measurements reveal that these novel architectures exhibit remarkable shift of absorption peak during the course of structural compaction and grain growth.

机译：在PVP存在下，通过简单的溶剂热方法已经大规模制备了形状可控的亚稳态γ-MnS半导体纳米晶体。关键策略是在乙二醇（EG）溶剂中使用硫粉作为硫源，该溶剂也充当弱还原剂。已发现反应参数（例如反应时间和温度）在控制各种分层体系结构（例如均匀的半空心核壳，空心纳米球和纳米线）中很重要。透射电子显微镜观察表明，这些分层结构主要是通过奥斯特瓦尔德熟化形成的。光学吸收测量表明，这些新颖的结构在结构压实和晶粒生长过程中表现出明显的吸收峰位移。

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《The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical》 |2006年第16期|共5页
作者
Zheng YH; Cheng Y; Wang YS; Zhou LH; Bao F; Jia C;
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正文语种 eng
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DILUTED MAGNETIC SEMICONDUCTORS; SOLVOTHERMAL SYNTHESIS; NANOCRYSTALS; FABRICATION; NANOSPHERES; DANDELIONS; CRYSTALS;

机译：稀磁半导体;热合成;纳米晶;制备;纳米球;蒲公英;晶体;

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1. Metastable gamma-MnS hierarchical architectures: Synthesis, characterization, and growth mechanism [J] . Zheng YH, Cheng Y, Wang YS, The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical . 2006,第16期

机译：亚稳γ-MnS分层体系结构：合成，表征和增长机制
2. Metastable gamma-MnS hierarchical architectures: Synthesis, characterization, and growth mechanism [J] . Zheng YH, Cheng Y, Wang YS, The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical . 2006,第16期

机译：亚稳γ-MnS分层体系结构：合成，表征和增长机制
3. Hierarchical-like multipod gamma-MnS microcrystals: solvothermal synthesis, characterization and growth mechanism [J] . Qi Kezhen, Selvaraj Rengaraj, Jeong Uiseok, RSC Advances . 2015,第13期

机译：分层状多脚体γ-MnS微晶：溶剂热合成，表征和生长机理
4. Synthesis, characterization and growth mechanism of hierarchical cantaloupe-like AlOOH superstructures by a simple hydrothermal process [C] . H Zhang, Y Lv, L M Zhang, 2010 International conference of international conference on combating land degradation in agricultral areas. . 2010

机译：简单的水热法合成哈密瓜状AlOOH超结构的合成，表征和生长机理
5. Synthesis and characterization of anisotropic cadmium and lead sulfide nanostructures from single source molecular precursors and an insight to their growth mechanisms. [D] . Mandal, Trinanjana. 2010

机译：从单一来源的分子前体合成和表征各向异性的镉和硫化铅纳米结构，并了解其生长机理。
6. Hierarchically nanostructured hydroxyapatite: hydrothermal synthesis morphology control growth mechanism and biological activity [O] . Ming-Guo Ma 2012

机译：分层纳米羟基磷灰石：水热合成形态控制生长机理和生物活性
7. Hierarchical-like multipod γ-MnS microcrystals: solvothermal synthesis, characterization and growth mechanism [O] . Kezhen Qi, Rengaraj Selvaraj, Uiseok Jeong, 2015

机译：等级多样γ-MNS微晶：溶剂热合成，表征和生长机制

Metastable gamma-MnS hierarchical architectures: Synthesis, characterization, and growth mechanism

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