The coalescence and etching of metal nanostructures via solution approach
This thesis summarizes my research studies on the coalescence and etching of nanomaterials. This thesis consists of two parts: (1) coalescence, aggregation and encapsulation of nanoparticles and its application on screening of synergistic effects and (2) coalescence and etching of silver nanowires....
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2016
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sg-ntu-dr.10356-688342023-03-01T00:01:23Z The coalescence and etching of metal nanostructures via solution approach Tan, Rachel Lee Siew Chen Hongyu School of Physical and Mathematical Sciences A*STAR Singapore Institute of Manufacturing Technology DRNTU::Science::Chemistry This thesis summarizes my research studies on the coalescence and etching of nanomaterials. This thesis consists of two parts: (1) coalescence, aggregation and encapsulation of nanoparticles and its application on screening of synergistic effects and (2) coalescence and etching of silver nanowires. For the first part, we make use of the coalescence of different nanoparticles to create bimetallic junctions between nanoparticles for screening of synergistic effects in catalytic reaction (Chapter 2). As this screening method involves the aggregation of nanoparticles to create bimetallic regions, we studied how to have controlled aggregation without additional reagents in Chapter 3. For the second part, we studied how we can make use of chemically induced ripening of silver nanowire junctions to reduce the sheet resistance of silver nanowire network (Chapter 4). In addition, we also studied how breaking of symmetry during etching of silver nanowires can yield unique nanowire structures (Chapter 5). Doctor of Philosophy (SPMS) 2016-06-09T02:36:54Z 2016-06-09T02:36:54Z 2016 Thesis http://hdl.handle.net/10356/68834 en 169 p. application/pdf |
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DRNTU::Science::Chemistry Tan, Rachel Lee Siew The coalescence and etching of metal nanostructures via solution approach |
| description |
This thesis summarizes my research studies on the coalescence and etching of nanomaterials. This thesis consists of two parts: (1) coalescence, aggregation and encapsulation of nanoparticles and its application on screening of synergistic effects and (2) coalescence and etching of silver nanowires.
For the first part, we make use of the coalescence of different nanoparticles to create bimetallic junctions between nanoparticles for screening of synergistic effects in catalytic reaction (Chapter 2). As this screening method involves the aggregation of nanoparticles to create bimetallic regions, we studied how to have controlled aggregation without additional reagents in Chapter 3.
For the second part, we studied how we can make use of chemically induced ripening of silver nanowire junctions to reduce the sheet resistance of silver nanowire network (Chapter 4). In addition, we also studied how breaking of symmetry during etching of silver nanowires can yield unique nanowire structures (Chapter 5). |
| author2 |
Chen Hongyu |
| author_facet |
Chen Hongyu Tan, Rachel Lee Siew |
| format |
Theses and Dissertations |
| author |
Tan, Rachel Lee Siew |
| author_sort |
Tan, Rachel Lee Siew |
| title |
The coalescence and etching of metal nanostructures via solution approach |
| title_short |
The coalescence and etching of metal nanostructures via solution approach |
| title_full |
The coalescence and etching of metal nanostructures via solution approach |
| title_fullStr |
The coalescence and etching of metal nanostructures via solution approach |
| title_full_unstemmed |
The coalescence and etching of metal nanostructures via solution approach |
| title_sort |
coalescence and etching of metal nanostructures via solution approach |
| publishDate |
2016 |
| url |
http://hdl.handle.net/10356/68834 |
| _version_ |
1759858218790551552 |