Three-Dimensional Graphene as Sensing Element for Intraocular Pressure Monitoring

Zhiduo Liu; Weihua Pei; Gang Wang; Hongda Chen

doi:10.1109/NER.2019.8716899

Three-Dimensional Graphene as Sensing Element for Intraocular Pressure Monitoring

Zhiduo Liu, Weihua Pei, Gang Wang, Hongda Chen

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

2 Citations (Scopus)

Abstract

Graphene nanowalls (GNWs) membrane exhibits a high response to deformation due to the interlaced graphene sheets. In this work, a contact-lens tonometer is developed using the graphene nanowalls (GNWs) as the sensing element for continuously intraocular pressure (IOP) monitoring. A gold film assisted transfer method was invented to transfer an intact structure of GNWs from film Silicon substrate, on which its deposited by PACVD, to polydimethylsiloxane (PDMS). It helps to obtain a sensing material with high sensitivity and transparency. The contact-lens tonometer has a high-resolution sensing property to tiny deformation introduced by IOP increasing.

Original language	English
Title of host publication	9th International IEEE EMBS Conference on Neural Engineering, NER 2019
Publisher	IEEE Computer Society
Pages	803-806
Number of pages	4
ISBN (Electronic)	9781538679210
DOIs	https://doi.org/10.1109/NER.2019.8716899
Publication status	Published - 16 May 2019
Externally published	Yes
Event	9th International IEEE EMBS Conference on Neural Engineering, NER 2019 - San Francisco, United States Duration: 20 Mar 2019 → 23 Mar 2019

Publication series

Name	International IEEE/EMBS Conference on Neural Engineering, NER
Volume	2019-March
ISSN (Print)	1948-3546
ISSN (Electronic)	1948-3554

Conference

Conference	9th International IEEE EMBS Conference on Neural Engineering, NER 2019
Country/Territory	United States
City	San Francisco
Period	20/03/19 → 23/03/19

Access to Document

10.1109/NER.2019.8716899

Cite this

Liu, Z., Pei, W., Wang, G., & Chen, H. (2019). Three-Dimensional Graphene as Sensing Element for Intraocular Pressure Monitoring. In 9th International IEEE EMBS Conference on Neural Engineering, NER 2019 (pp. 803-806). Article 8716899 (International IEEE/EMBS Conference on Neural Engineering, NER; Vol. 2019-March). IEEE Computer Society. https://doi.org/10.1109/NER.2019.8716899

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title = "Three-Dimensional Graphene as Sensing Element for Intraocular Pressure Monitoring",

abstract = "Graphene nanowalls (GNWs) membrane exhibits a high response to deformation due to the interlaced graphene sheets. In this work, a contact-lens tonometer is developed using the graphene nanowalls (GNWs) as the sensing element for continuously intraocular pressure (IOP) monitoring. A gold film assisted transfer method was invented to transfer an intact structure of GNWs from film Silicon substrate, on which its deposited by PACVD, to polydimethylsiloxane (PDMS). It helps to obtain a sensing material with high sensitivity and transparency. The contact-lens tonometer has a high-resolution sensing property to tiny deformation introduced by IOP increasing.",

author = "Zhiduo Liu and Weihua Pei and Gang Wang and Hongda Chen",

note = "Publisher Copyright: {\textcopyright} 2019 IEEE.; 9th International IEEE EMBS Conference on Neural Engineering, NER 2019 ; Conference date: 20-03-2019 Through 23-03-2019",

year = "2019",

month = may,

day = "16",

doi = "10.1109/NER.2019.8716899",

language = "English",

series = "International IEEE/EMBS Conference on Neural Engineering, NER",

publisher = "IEEE Computer Society",

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}

Liu, Z, Pei, W, Wang, G & Chen, H 2019, Three-Dimensional Graphene as Sensing Element for Intraocular Pressure Monitoring. in 9th International IEEE EMBS Conference on Neural Engineering, NER 2019., 8716899, International IEEE/EMBS Conference on Neural Engineering, NER, vol. 2019-March, IEEE Computer Society, pp. 803-806, 9th International IEEE EMBS Conference on Neural Engineering, NER 2019, San Francisco, United States, 20/03/19. https://doi.org/10.1109/NER.2019.8716899

Three-Dimensional Graphene as Sensing Element for Intraocular Pressure Monitoring. / Liu, Zhiduo; Pei, Weihua; Wang, Gang et al.
9th International IEEE EMBS Conference on Neural Engineering, NER 2019. IEEE Computer Society, 2019. p. 803-806 8716899 (International IEEE/EMBS Conference on Neural Engineering, NER; Vol. 2019-March).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Wang, Gang

AU - Chen, Hongda

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Y1 - 2019/5/16

N2 - Graphene nanowalls (GNWs) membrane exhibits a high response to deformation due to the interlaced graphene sheets. In this work, a contact-lens tonometer is developed using the graphene nanowalls (GNWs) as the sensing element for continuously intraocular pressure (IOP) monitoring. A gold film assisted transfer method was invented to transfer an intact structure of GNWs from film Silicon substrate, on which its deposited by PACVD, to polydimethylsiloxane (PDMS). It helps to obtain a sensing material with high sensitivity and transparency. The contact-lens tonometer has a high-resolution sensing property to tiny deformation introduced by IOP increasing.

AB - Graphene nanowalls (GNWs) membrane exhibits a high response to deformation due to the interlaced graphene sheets. In this work, a contact-lens tonometer is developed using the graphene nanowalls (GNWs) as the sensing element for continuously intraocular pressure (IOP) monitoring. A gold film assisted transfer method was invented to transfer an intact structure of GNWs from film Silicon substrate, on which its deposited by PACVD, to polydimethylsiloxane (PDMS). It helps to obtain a sensing material with high sensitivity and transparency. The contact-lens tonometer has a high-resolution sensing property to tiny deformation introduced by IOP increasing.

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DO - 10.1109/NER.2019.8716899

M3 - Conference contribution

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BT - 9th International IEEE EMBS Conference on Neural Engineering, NER 2019

PB - IEEE Computer Society

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Y2 - 20 March 2019 through 23 March 2019

ER -

Three-Dimensional Graphene as Sensing Element for Intraocular Pressure Monitoring

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