The Effect of Processing on Hybrid Organic-Inorganic Perovskites and Solid-State Electrolytes for Use in Energy Production and Storage Devices- [electronic resource]
The Effect of Processing on Hybrid Organic-Inorganic Perovskites and Solid-State Electrolytes for Use in Energy Production and Storage Devices- [electronic resource]
- Material Type
- 단행본
- 0016935298
- Date and Time of Latest Transaction
- 20240214101915
- ISBN
- 9798380849616
- DDC
- 660
- Author
- Eatmon, Yannick L.
- Title/Author
- The Effect of Processing on Hybrid Organic-Inorganic Perovskites and Solid-State Electrolytes for Use in Energy Production and Storage Devices - [electronic resource]
- Publish Info
- [S.l.]: : Princeton University., 2023
- Publish Info
- Ann Arbor : : ProQuest Dissertations & Theses,, 2023
- Material Info
- 1 online resource(171 p.)
- General Note
- Source: Dissertations Abstracts International, Volume: 85-05, Section: B.
- General Note
- Advisor: Arnold, Craig B.
- 학위논문주기
- Thesis (Ph.D.)--Princeton University, 2023.
- Restrictions on Access Note
- This item must not be sold to any third party vendors.
- Abstracts/Etc
- 요약Hybrid organic-inorganic perovskites that are used in energy production devices are discussed, as are solid-state Li-ion electrolytes that are used in energy storage devices. Of the these electrolytes, Li7P3S11 is promising, displaying high ionic conductivities; it is sensitive to air exposure. Laser processed pellets of Li7P3S11 pellets were prepared to bolster its hydrolytic stability. Such laser processing resulted in changes to the surface morphology and chemical composition of the electrolyte. The degree of morphological and chemical change is a function of the energy supplied to the sample, which can be controlled through adjustment of laser processing parameters. Fabricating batteries with thin electrolyte sheets increases energy density and lowers internal resistance; thus, solution processing pathways for Li7P3S11 were explored, and chemical compatibility of this electrolyte with various solvents was assessed. We attempt to use propylamine to synthesis and deposit the electrolyte; side reactions in this solvent and low ionic conductivity of the resulted solid compromised the utility of several solvents studied.In a separate study the role of CsI was elucidated in solution in solution via UV-Vis spectroscopy and a series of NMR experiments. Evidence was obtained that supports perovskite pre-organization in precursor solutions containing CsI, which may improve crystallization pathways to bolster the solid-state material properties.
- Subject Added Entry-Topical Term
- Chemical engineering.
- Subject Added Entry-Topical Term
- Energy.
- Subject Added Entry-Topical Term
- Materials science.
- Index Term-Uncontrolled
- Battery
- Index Term-Uncontrolled
- Laser processing
- Index Term-Uncontrolled
- Nuclear magnetic resonance
- Index Term-Uncontrolled
- Perovskite
- Index Term-Uncontrolled
- Solar cell
- Index Term-Uncontrolled
- Solid state electrolyte
- Added Entry-Corporate Name
- Princeton University Chemical and Biological Engineering
- Host Item Entry
- Dissertations Abstracts International. 85-05B.
- Host Item Entry
- Dissertation Abstract International
- Electronic Location and Access
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- 소장사항
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202402 2024
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