Department of Energy Science and Engineering
Light, Salts and Water Research Group
1. Journal Articles
Synthesis of Water-Dispersible Single-Layer CoAl-Carbonate Layered Double Hydroxide
- Title
- Synthesis of Water-Dispersible Single-Layer CoAl-Carbonate Layered Double Hydroxide
- Author(s)
- Li, Haiping ; Thanh-Nhan Tran ; Lee, Byong-Jun ; Zhang, Chunfei ; Park, Jong-Deok ; Kang, Tong-Hyun ; Yu, Jong-Sung
- Issued Date
- 2017-06
- Citation
- ACS Applied Materials & Interfaces, v.9, no.24, pp.20294 - 20298
- Type
- Article
- Author Keywords
- single layer ; monolayers ; layered double hydroxide ; catalysis ; oxygen evolution
- Keywords
- Anion Exchange ; Catalysis ; Delamination ; Electrocatalytic ; Ethylene ; Ethylene Glycol ; Exfoliation ; Formamide ; High Specific Surface Area ; Layered Double Hydroxide ; Layered Double Hydroxides ; LDH ; Monolayers ; Nanosheets ; Nitrate ; Oxygen Evolution ; Oxygen Evolution Catalysis ; Oxygen Evolution Efficiency ; Performances ; Reaction Medium ; Single Layer ; Water Dispersible
- ISSN
- 1944-8244
- Abstract
- Despite extensive study on single-layer layered double hydroxides (SL-LDHs) with NO3 - counterions, SL-LDHs with CO3 2- counterions (CO3 2- SL-LDHs) have never been prepared before. Herein, a CoAl-CO3 2- SL-LDH which stays stable in water and powdery state is first synthesized using ethylene glycol as a reaction medium. The SL-LDH, with thickness of ∼0.85 nm, is composed of one Co(Al)O6 layer sandwiched between two CO3 2- layers. The SL-LDH powder shows high specific surface area (∼289 m2/g) and excellent electrocatalytic oxygen evolution efficiency. This work provides the first simple way to prepare CO3 2- SL-LDHs and will open an avenue for synthesizing other SL-LDHs. © 2017 American Chemical Society.
- Publisher
- American Chemical Society
- Related Researcher
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Yu, Jong-Sung
- Research Interests Materials chemistry; nanomaterials; electrochemistry; carbon and porous materials; fuel cell; battery; supercapacitor; sensor and photochemical catalyst
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- Department of Energy Science and Engineering Light, Salts and Water Research Group 1. Journal Articles
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