Rapid prototyping of a novel and flexible paper based oxygen sensing patch via additive inkjet printing process

Maddipatla Dinesh; Narakathu Binu B.; Ochoa Manuel; Rahimi Rahim; Zhou Jiawei; Yoon Chang K.; Jiang HongJie; Al-Zubaidi Hazim; Obare Sherine O.; Zieger Michael A.; Ziaie Babak; Atashbar Massood Z.

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Rapid prototyping of a novel and flexible paper based oxygen sensing patch via additive inkjet printing process

机译：新颖且柔性纸的氧气传感贴片通过添加剂印刷过程的快速原型设计

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A novel and flexible oxygen sensing patch was successfully developed for wearable, industrial, food packaging, pharmaceutical and biomedical applications using a cost-efficient and rapid prototypable additive inkjet print manufacturing process. An oxygen sensitive ink was formulated by dissolving ruthenium dye and ethyl cellulose polymer in ethanol in a 1 : 1 : 98 (w/w/w) ratio. The patch was fabricated by depositing the oxygen sensitive ink on a flexible parchment paper substrate using an inkjet printing process. A maximum absorbance from 430 nm to 480 nm and a fluorescence of 600 nm was observed for the oxygen sensitive ink. The capability of the oxygen sensitive patch was investigated by measuring the fluorescence quenching lifetime of the printed dye for varying oxygen concentration levels. A fluorescence lifetime decay () from approximate to 4 mu s to approximate to 1.9 mu s was calculated for the printed oxygen sensor patch, for oxygen concentrations varying from approximate to 5 mg L-1 to approximate to 25 mg L-1. A sensitivity of 0.11 mu s mg L-1 and a correlation coefficient of 0.9315 was measured for the printed patches. The results demonstrated the feasibility of employing an inkjet printing process for the rapid prototyping of flexible and moisture resistant oxygen sensitive patches which facilitates a non-invasive method for monitoring oxygen and its concentration levels.

机译：使用具有成本效益和快速的原型添加剂喷墨印刷制造工艺，成功开发了一种新颖且灵活的氧气传感贴片，用于可穿戴，工业，食品包装，药品和生物医学应用。通过将钌染料和乙基纤维素聚合物溶解在1：1：98（w / w）的比例中，通过将氧化钌和乙基纤维素聚合物溶解氧敏感油墨。通过使用喷墨印刷工艺将氧敏感墨水沉积在柔性羊皮纸基板上来制造贴剂。为氧敏感油墨观察到430nm至480nm的最大吸光度和600nm的荧光。通过测量印刷染料的荧光猝灭寿命来研究氧敏感贴剂的能力，以改变氧浓度水平。对于印刷的氧传感器贴剂计算致荧光寿命衰减（）从近似到4μs近似为1.9μs，氧浓度从大致5mg l-1改变为近似为25mg l-1。测量印刷贴片0.11μsmgl-1的敏感性和0.9315的相关系数。结果表明，采用喷墨印刷工艺的可行性，用于柔性和防潮性氧敏感贴片的快速原型设计，促进了用于监测氧气及其浓度水平的非侵入性方法。

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《RSC Advances》 |2019年第39期|共10页
作者
Maddipatla Dinesh; Narakathu Binu B.; Ochoa Manuel; Rahimi Rahim; Zhou Jiawei; Yoon Chang K.; Jiang HongJie; Al-Zubaidi Hazim; Obare Sherine O.; Zieger Michael A.; Ziaie Babak; Atashbar Massood Z.;
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Western Michigan Univ Dept Elect &

Comp Engn Kalamazoo MI 49008 USA;

Western Michigan Univ Dept Elect &

Comp Engn Kalamazoo MI 49008 USA;

Purdue Univ Sch Elect &

Comp Engn W Lafayette IN 47907 USA;

Purdue Univ Sch Elect &

Comp Engn W Lafayette IN 47907 USA;

Purdue Univ Sch Elect &

Comp Engn W Lafayette IN 47907 USA;

Purdue Univ Sch Elect &

Comp Engn W Lafayette IN 47907 USA;

Purdue Univ Sch Elect &

Comp Engn W Lafayette IN 47907 USA;

Western Michigan Univ Dept Chem Kalamazoo MI 49008 USA;

Western Michigan Univ Dept Chem Kalamazoo MI 49008 USA;

Indiana Univ Sch Med Indianapolis IN USA;

Purdue Univ Sch Elect &

Comp Engn W Lafayette IN 47907 USA;

Western Michigan Univ Dept Elect &

Comp Engn Kalamazoo MI 49008 USA;

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正文语种 eng
中图分类化学;
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1. Rapid prototyping of a novel and flexible paper based oxygen sensing patch via additive inkjet printing process [J] . Maddipatla Dinesh, Narakathu Binu B., Ochoa Manuel, RSC Advances . 2019,第39期

机译：新颖且柔性纸的氧气传感贴片通过添加剂印刷过程的快速原型设计
2. Rapid prototyping of a novel and flexible paper based oxygen sensing patch via additive inkjet printing process [J] . Dinesh Maddipatla, Binu B. Narakathu, Manuel Ochoa, RSC Advances . 2019,第39期

机译：通过添加剂喷墨印刷工艺快速构建新型，柔性纸基氧气感应贴片的原型
3. Low-cost and rapid prototyping of microfluidic paper-based analytical devices by inkjet printing of permanent marker ink [J] . Xu Chunxiu, Cai Longfei, Zhong Minghua, RSC Advances . 2015,第7期

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4. Rapid prototyping of a flexible microfluidic sensing system using inkjet and screen printing processes [C] . B. B. Narakathu, S. G. A. Reddy, D. Maddipatla, IEEE Sensors . 2016

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5. Development of High Resolution Rapid Prototyping Method for Flexible Electronic Devices Based on Electrohydrodynamic Inkjet Printing. [D] . Qin, Hantang. 2016

机译：基于电动流体动力学喷墨打印的柔性电子设备高分辨率快速原型开发方法的开发。
6. Low-Cost Inkjet Printing Technology for the Rapid Prototyping of Transducers [O] . Bruno Andò, Salvatore Baglio, Adi R. Bulsara, 2017

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7. Characterization and Inkjet Printing of an RNA Aptamer for Paper-Based Biosensing of Ciprofloxacin [O] . Jeannine Jaeger, Florian Groher, Jacqueline Stamm, 2019

机译：用于纸纸纸体的RNA适体的特征和喷墨印刷 - CiProxacin的生物传感

Rapid prototyping of a novel and flexible paper based oxygen sensing patch via additive inkjet printing process

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