Nanomaterial‐Modified Conducting Paper: Fabrication, Properties, and Emerging Biomedical Applications
Abstract The emerging demand for wearable, lightweight portable devices has led to the development of new materials for flexible electronics using non‐rigid substrates. In this context, nanomaterial‐modified conducting paper (CP) represents a new concept that utilizes paper as a functional part in v...
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doaj-75a7f29dc2c844beb5b3ef9292b7a0eb2021-05-02T05:37:41ZengWileyGlobal Challenges2056-66462019-12-01312n/an/a10.1002/gch2.201900041Nanomaterial‐Modified Conducting Paper: Fabrication, Properties, and Emerging Biomedical ApplicationsSaurabh Kumar0Chandra Mouli Pandey1Amir Hatamie2Abdolreza Simchi3Magnus Willander4Bansi D. Malhotra5Centre for Nano Science and Engineering (CeNSE) Indian Institute of Science Bengaluru 560012 IndiaDepartment of Biotechnology Delhi Technological University Main Bawana Road Delhi 110042 IndiaDepartment of Science & Technology Campus Norrkoping Linkoping University SE 60174 Norrkoping SwedenNanostructured & Advanced Materials Lab Department of Materials Science and Engineering Sharif University of Technology Tehran 1458889694 IranDepartment of Science & Technology Campus Norrkoping Linkoping University SE 60174 Norrkoping SwedenDepartment of Biotechnology Delhi Technological University Main Bawana Road Delhi 110042 IndiaAbstract The emerging demand for wearable, lightweight portable devices has led to the development of new materials for flexible electronics using non‐rigid substrates. In this context, nanomaterial‐modified conducting paper (CP) represents a new concept that utilizes paper as a functional part in various devices. Paper has drawn significant interest among the research community because it is ubiquitous, cheap, and environmentally friendly. This review provides information on the basic characteristics of paper and its functionalization with nanomaterials, methodology for device fabrication, and their various applications. It also highlights some of the exciting applications of CP in point‐of‐care diagnostics for biomedical applications. Furthermore, recent challenges and opportunities in paper‐based devices are summarized.https://doi.org/10.1002/gch2.201900041conducting paperdeposition methodsnanomaterialspoint‐of‐care devices |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Saurabh Kumar Chandra Mouli Pandey Amir Hatamie Abdolreza Simchi Magnus Willander Bansi D. Malhotra |
spellingShingle |
Saurabh Kumar Chandra Mouli Pandey Amir Hatamie Abdolreza Simchi Magnus Willander Bansi D. Malhotra Nanomaterial‐Modified Conducting Paper: Fabrication, Properties, and Emerging Biomedical Applications Global Challenges conducting paper deposition methods nanomaterials point‐of‐care devices |
author_facet |
Saurabh Kumar Chandra Mouli Pandey Amir Hatamie Abdolreza Simchi Magnus Willander Bansi D. Malhotra |
author_sort |
Saurabh Kumar |
title |
Nanomaterial‐Modified Conducting Paper: Fabrication, Properties, and Emerging Biomedical Applications |
title_short |
Nanomaterial‐Modified Conducting Paper: Fabrication, Properties, and Emerging Biomedical Applications |
title_full |
Nanomaterial‐Modified Conducting Paper: Fabrication, Properties, and Emerging Biomedical Applications |
title_fullStr |
Nanomaterial‐Modified Conducting Paper: Fabrication, Properties, and Emerging Biomedical Applications |
title_full_unstemmed |
Nanomaterial‐Modified Conducting Paper: Fabrication, Properties, and Emerging Biomedical Applications |
title_sort |
nanomaterial‐modified conducting paper: fabrication, properties, and emerging biomedical applications |
publisher |
Wiley |
series |
Global Challenges |
issn |
2056-6646 |
publishDate |
2019-12-01 |
description |
Abstract The emerging demand for wearable, lightweight portable devices has led to the development of new materials for flexible electronics using non‐rigid substrates. In this context, nanomaterial‐modified conducting paper (CP) represents a new concept that utilizes paper as a functional part in various devices. Paper has drawn significant interest among the research community because it is ubiquitous, cheap, and environmentally friendly. This review provides information on the basic characteristics of paper and its functionalization with nanomaterials, methodology for device fabrication, and their various applications. It also highlights some of the exciting applications of CP in point‐of‐care diagnostics for biomedical applications. Furthermore, recent challenges and opportunities in paper‐based devices are summarized. |
topic |
conducting paper deposition methods nanomaterials point‐of‐care devices |
url |
https://doi.org/10.1002/gch2.201900041 |
work_keys_str_mv |
AT saurabhkumar nanomaterialmodifiedconductingpaperfabricationpropertiesandemergingbiomedicalapplications AT chandramoulipandey nanomaterialmodifiedconductingpaperfabricationpropertiesandemergingbiomedicalapplications AT amirhatamie nanomaterialmodifiedconductingpaperfabricationpropertiesandemergingbiomedicalapplications AT abdolrezasimchi nanomaterialmodifiedconductingpaperfabricationpropertiesandemergingbiomedicalapplications AT magnuswillander nanomaterialmodifiedconductingpaperfabricationpropertiesandemergingbiomedicalapplications AT bansidmalhotra nanomaterialmodifiedconductingpaperfabricationpropertiesandemergingbiomedicalapplications |
_version_ |
1721494988827656192 |