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Literature DB >> 17026120

Combinatorial search for optimal hydrogen-storage nanomaterials based on polymers.

Hoonkyung Lee¹, Woon Ih Choi, Jisoon Ihm.

Abstract

We perform an extensive combinatorial search for optimal nanostructured hydrogen-storage materials among various metal-decorated polymers using first-principles density-functional calculations. We take into account the zero-point vibration as well as the pressure- and temperature-dependent adsorption-desorption probability of hydrogen molecules. An optimal material we identify is Ti-decorated cis-polyacetylene with reversibly usable gravimetric and volumetric density of 7.6 wt % and 63 kg/m(3), respectively, near ambient conditions. We also propose "thermodynamically usable hydrogen capacity" as a criterion for comparing different storage materials.

Entities: Chemical

Year: 2006 PMID： 17026120 DOI： 10.1103/PhysRevLett.97.056104

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

7 in total

Review 7. The recent advancement of low-dimensional nanostructured materials for drug delivery and drug sensing application: A brief review.

Authors: Hamidur Rahman; Md Rakib Hossain; Tahmina Ferdous
Journal: J Mol Liq Date: 2020-09-30 Impact factor: 6.165

7 in total

Combinatorial search for optimal hydrogen-storage nanomaterials based on polymers.

1. Progress on first-principles-based materials design for hydrogen storage.

2. Hydrogen storage in C3Ti complex using quantum chemical methods and molecular dynamics simulations.

3. Theoretical insight into the BH₃·HCN adsorption on the Co(100) and Co(110) surfaces as hydrogen storage.

4. Exfoliation, point defects and hydrogen storage properties of monolayer TiS₃: an ab initio study.

5. A predictive machine learning approach for microstructure optimization and materials design.

6. Three-dimensional metal-intercalated covalent organic frameworks for near-ambient energy storage.

Review 7. The recent advancement of low-dimensional nanostructured materials for drug delivery and drug sensing application: A brief review.

Combinatorial search for optimal hydrogen-storage nanomaterials based on polymers.

1. Progress on first-principles-based materials design for hydrogen storage.

2. Hydrogen storage in C3Ti complex using quantum chemical methods and molecular dynamics simulations.

3. Theoretical insight into the BH3·HCN adsorption on the Co(100) and Co(110) surfaces as hydrogen storage.

4. Exfoliation, point defects and hydrogen storage properties of monolayer TiS3: an ab initio study.

5. A predictive machine learning approach for microstructure optimization and materials design.

6. Three-dimensional metal-intercalated covalent organic frameworks for near-ambient energy storage.

Review 7. The recent advancement of low-dimensional nanostructured materials for drug delivery and drug sensing application: A brief review.

3. Theoretical insight into the BH₃·HCN adsorption on the Co(100) and Co(110) surfaces as hydrogen storage.

4. Exfoliation, point defects and hydrogen storage properties of monolayer TiS₃: an ab initio study.