Polymer-Protein Hybrid Thin Films through Co-Assembly: Optimisation, Characterisation, Functionalisation

2021 doctoral thesis by Tarek Kollmetz at University of Auckland

Place doctoral_thesis Q112200815

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Polymer-Protein Hybrid Thin Films through Co-Assembly: Optimisation, Characterisation, Functionalisation

Summary

Polymer-Protein Hybrid Thin Films through Co-Assembly: Optimisation, Characterisation, Functionalisation is a doctoral thesis^[1].

Key Facts

Polymer-Protein Hybrid Thin Films through Co-Assembly: Optimisation, Characterisation, Functionalisation authored Optimisation, Characterisation, Functionalisation — author (P50): Tarek Kollmetz^[2].
Polymer-Protein Hybrid Thin Films through Co-Assembly: Optimisation, Characterisation, Functionalisation's instance of is recorded as Optimisation, Characterisation, Functionalisation — instance of (P31): doctoral thesis^[3].
Polymer-Protein Hybrid Thin Films through Co-Assembly: Optimisation, Characterisation, Functionalisation's publisher is recorded as Optimisation, Characterisation, Functionalisation — publisher (P123): ResearchSpace@Auckland^[4].
Polymer-Protein Hybrid Thin Films through Co-Assembly: Optimisation, Characterisation, Functionalisation's copyright license is recorded as Optimisation, Characterisation, Functionalisation — copyright license (P275): Creative Commons Attribution-NonCommercial-ShareAlike 3.0 New Zealand^[5].
Polymer-Protein Hybrid Thin Films through Co-Assembly: Optimisation, Characterisation, Functionalisation's country of origin is recorded as Optimisation, Characterisation, Functionalisation — country of origin (P495): New Zealand^[6].
Polymer-Protein Hybrid Thin Films through Co-Assembly: Optimisation, Characterisation, Functionalisation's publication date is recorded as +2021-00-00T00:00:00Z^[7].
Polymer-Protein Hybrid Thin Films through Co-Assembly: Optimisation, Characterisation, Functionalisation's main subject is recorded as Optimisation, Characterisation, Functionalisation — main subject (P921): chemical engineering^[8].
Polymer-Protein Hybrid Thin Films through Co-Assembly: Optimisation, Characterisation, Functionalisation's main subject is recorded as Optimisation, Characterisation, Functionalisation — main subject (P921): materials engineering^[9].
Polymer-Protein Hybrid Thin Films through Co-Assembly: Optimisation, Characterisation, Functionalisation's work available at URL is recorded as https://researchspace.auckland.ac.nz/handle/2292/57522^[10].
Polymer-Protein Hybrid Thin Films through Co-Assembly: Optimisation, Characterisation, Functionalisation's Handle ID is recorded as 2292/57522^[11].
Polymer-Protein Hybrid Thin Films through Co-Assembly: Optimisation, Characterisation, Functionalisation's title is recorded as Polymer-Protein Hybrid Thin Films through Co-Assembly: Optimisation, Characterisation, Functionalisation^[12].
Polymer-Protein Hybrid Thin Films through Co-Assembly: Optimisation, Characterisation, Functionalisation's copyright holder is recorded as Optimisation, Characterisation, Functionalisation — copyright holder (P3931): Tarek Kollmetz^[13].
Polymer-Protein Hybrid Thin Films through Co-Assembly: Optimisation, Characterisation, Functionalisation's thesis submitted to is recorded as Optimisation, Characterisation, Functionalisation — thesis submitted to (P4101): University of Auckland^[14].
Polymer-Protein Hybrid Thin Films through Co-Assembly: Optimisation, Characterisation, Functionalisation's on focus list of Wikimedia project is recorded as Optimisation, Characterisation, Functionalisation — on focus list of Wikimedia project (P5008): NZThesisProject^[15].
Polymer-Protein Hybrid Thin Films through Co-Assembly: Optimisation, Characterisation, Functionalisation's copyright status is recorded as Optimisation, Characterisation, Functionalisation — copyright status (P6216): copyrighted^[16].
Polymer-Protein Hybrid Thin Films through Co-Assembly: Optimisation, Characterisation, Functionalisation's online access status is recorded as Optimisation, Characterisation, Functionalisation — online access status (P6954): open access^[17].
Polymer-Protein Hybrid Thin Films through Co-Assembly: Optimisation, Characterisation, Functionalisation's thesis committee member is recorded as Optimisation, Characterisation, Functionalisation — thesis committee member (P9161): Jenny Malmström^[18].
Polymer-Protein Hybrid Thin Films through Co-Assembly: Optimisation, Characterisation, Functionalisation's thesis committee member is recorded as Optimisation, Characterisation, Functionalisation — thesis committee member (P9161): Juliet Gerrard^[19].

Body

Designation and Status

Polymer-Protein Hybrid Thin Films through Co-Assembly: Optimisation, Characterisation, Functionalisation's instance of is recorded as Optimisation, Characterisation, Functionalisation — instance of (P31): doctoral thesis^[3].

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Quick Facts

Instance of doctoral thesis

Author Tarek Kollmetz

Publication date 2021

Properties

Country of origin New Zealand

Imported from wholeness_audit_2026-05-02

Main subject chemical engineering, materials engineering

On focus list of wikimedia project NZThesisProject

Online access status open access

Publisher ResearchSpace@Auckland

Thesis committee member Jenny Malmström, Juliet Gerrard

Thesis submitted to University of Auckland

Title Polymer-Protein Hybrid Thin Films through Co-Assembly: Optimisation, Characterisation, Functionalisation

Work available at url researchspace.auckland.ac.nz

External References (1)

Handle id 2292/57522

References

Programmatic citations — every numbered marker resolves to a verifiable graph row below.

Direct Wikidata claims

Class ancestry

[1] ↑ Polymer-Protein Hybrid Thin Films through Co-Assembly: Optimisation, Characterisation, Functionalisation is an instance of doctoral thesis (Q187685) [P31, primary]. Wikidata. wikidata.org.

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APA

4ort.xyz Knowledge Graph. (2026). Polymer-Protein Hybrid Thin Films through Co-Assembly: Optimisation, Characterisation, Functionalisation. Retrieved May 3, 2026, from https://4ort.xyz/entity/polymer-protein-hybrid-thin-films-through-co-assembly-optimisation-characterisation-functionalisation

MLA

“Polymer-Protein Hybrid Thin Films through Co-Assembly: Optimisation, Characterisation, Functionalisation.” 4ort.xyz Knowledge Graph, 4ort.xyz, 3 May. 2026, https://4ort.xyz/entity/polymer-protein-hybrid-thin-films-through-co-assembly-optimisation-characterisation-functionalisation.

BibTeX

@misc{4ortxyz_polymer-protein-hybrid-thin-films-through-co-assembly-optimisation-characterisation-functionalisation_2026, author = {{4ort.xyz Knowledge Graph}}, title = {{Polymer-Protein Hybrid Thin Films through Co-Assembly: Optimisation, Characterisation, Functionalisation}}, year = {2026}, url = {https://4ort.xyz/entity/polymer-protein-hybrid-thin-films-through-co-assembly-optimisation-characterisation-functionalisation}, note = {Accessed: 2026-05-03}}

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According to 4ort.xyz Knowledge Graph (aggregator of Wikidata, Wikipedia, and authoritative open-data sources): Polymer-Protein Hybrid Thin Films through Co-Assembly: Optimisation, Characterisation, Functionalisation — https://4ort.xyz/entity/polymer-protein-hybrid-thin-films-through-co-assembly-optimisation-characterisation-functionalisation (retrieved 2026-05-03)

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