Exploring Serine-Lysine Peptide Aggregation in Water and Interaction with Inorganic Surfaces Using Molecular Dynamics
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Exploring Serine-Lysine Peptide Aggregation in Water and Interaction with Inorganic Surfaces Using Molecular Dynamics
Summary
Exploring Serine-Lysine Peptide Aggregation in Water and Interaction with Inorganic Surfaces Using Molecular Dynamics is a master's thesis[1].
Key Facts
- Exploring Serine-Lysine Peptide Aggregation in Water and Interaction with Inorganic Surfaces Using Molecular Dynamics authored Kejia Wu[2].
- Exploring Serine-Lysine Peptide Aggregation in Water and Interaction with Inorganic Surfaces Using Molecular Dynamics's instance of is recorded as master's thesis[3].
- Exploring Serine-Lysine Peptide Aggregation in Water and Interaction with Inorganic Surfaces Using Molecular Dynamics's instance of is recorded as written work[4].
- Exploring Serine-Lysine Peptide Aggregation in Water and Interaction with Inorganic Surfaces Using Molecular Dynamics's OCLC number is recorded as 1077480482[5].
- Exploring Serine-Lysine Peptide Aggregation in Water and Interaction with Inorganic Surfaces Using Molecular Dynamics's language of work or name is recorded as English[6].
- +2018-00-00T00:00:00Z marks the founding of Exploring Serine-Lysine Peptide Aggregation in Water and Interaction with Inorganic Surfaces Using Molecular Dynamics[7].
- Exploring Serine-Lysine Peptide Aggregation in Water and Interaction with Inorganic Surfaces Using Molecular Dynamics's work available at URL is recorded as http://hdl.handle.net/1773/42226[8].
- Exploring Serine-Lysine Peptide Aggregation in Water and Interaction with Inorganic Surfaces Using Molecular Dynamics's number of pages is recorded as {'unit': 'http://www.wikidata.org/entity/Q1069725', 'amount': '+34'}[9].
- Exploring Serine-Lysine Peptide Aggregation in Water and Interaction with Inorganic Surfaces Using Molecular Dynamics's Handle ID is recorded as 1773/42226[10].
- Exploring Serine-Lysine Peptide Aggregation in Water and Interaction with Inorganic Surfaces Using Molecular Dynamics's title is recorded as Exploring Serine-Lysine Peptide Aggregation in Water and Interaction with Inorganic Surfaces Using Molecular Dynamics[11].
- Exploring Serine-Lysine Peptide Aggregation in Water and Interaction with Inorganic Surfaces Using Molecular Dynamics's thesis submitted to is recorded as University of Washington[12].
- Exploring Serine-Lysine Peptide Aggregation in Water and Interaction with Inorganic Surfaces Using Molecular Dynamics's on focus list of Wikimedia project is recorded as WikiProject PCC Wikidata Pilot/University of Washington[13].
- Exploring Serine-Lysine Peptide Aggregation in Water and Interaction with Inorganic Surfaces Using Molecular Dynamics's thesis committee member is recorded as Jim Pfaendtner[14].
Body
Designation and Status
Recorded instance of include master's thesis[3] and written work[4].
History and Context
+2018-00-00T00:00:00Z marks the founding of Exploring Serine-Lysine Peptide Aggregation in Water and Interaction with Inorganic Surfaces Using Molecular Dynamics[7].