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Literature DB >> 22173817

Batch fabrication of disposable screen printed SERS arrays.

Lu-Lu Qu¹, Da-Wei Li, Jin-Qun Xue, Wen-Lei Zhai, John S Fossey, Yi-Tao Long.

Abstract

A novel facile method of fabricating disposable and highly reproducible surface-enhanced Raman spectroscopy (SERS) arrays using screen printing was explored. The screen printing ink containing silver nanoparticles was prepared and printed on supporting materials by a screen printing process to fabricate SERS arrays (6 × 10 printed spots) in large batches. The fabrication conditions, SERS performance and application of these arrays were systematically investigated, and a detection limit of 1.6 × 10(-13) M for rhodamine 6G could be achieved. Moreover, the screen printed SERS arrays exhibited high reproducibility and stability, the spot-to-spot SERS signals showed that the intensity variation was less than 10% and SERS performance could be maintained over 12 weeks. Portable high-throughput analysis of biological samples was accomplished using these disposable screen printed SERS arrays.

Entities: Chemical

Mesh：

Substances：

Year: 2011 PMID： 22173817 DOI： 10.1039/c2lc20926h

Source DB: PubMed Journal: Lab Chip ISSN： 1473-0189 Impact factor: 6.799

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Cited

14 in total

1. Present and Future of Surface-Enhanced Raman Scattering.

Authors: Judith Langer; Dorleta Jimenez de Aberasturi; Javier Aizpurua; Ramon A Alvarez-Puebla; Baptiste Auguié; Jeremy J Baumberg; Guillermo C Bazan; Steven E J Bell; Anja Boisen; Alexandre G Brolo; Jaebum Choo; Dana Cialla-May; Volker Deckert; Laura Fabris; Karen Faulds; F Javier García de Abajo; Royston Goodacre; Duncan Graham; Amanda J Haes; Christy L Haynes; Christian Huck; Tamitake Itoh; Mikael Käll; Janina Kneipp; Nicholas A Kotov; Hua Kuang; Eric C Le Ru; Hiang Kwee Lee; Jian-Feng Li; Xing Yi Ling; Stefan A Maier; Thomas Mayerhöfer; Martin Moskovits; Kei Murakoshi; Jwa-Min Nam; Shuming Nie; Yukihiro Ozaki; Isabel Pastoriza-Santos; Jorge Perez-Juste; Juergen Popp; Annemarie Pucci; Stephanie Reich; Bin Ren; George C Schatz; Timur Shegai; Sebastian Schlücker; Li-Lin Tay; K George Thomas; Zhong-Qun Tian; Richard P Van Duyne; Tuan Vo-Dinh; Yue Wang; Katherine A Willets; Chuanlai Xu; Hongxing Xu; Yikai Xu; Yuko S Yamamoto; Bing Zhao; Luis M Liz-Marzán
Journal: ACS Nano Date: 2019-10-08 Impact factor: 15.881

2. Computational Sensing Using Low-Cost and Mobile Plasmonic Readers Designed by Machine Learning.

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3. Picosecond Laser-Ablated Nanoparticles Loaded Filter Paper for SERS-Based Trace Detection of Thiram, 1,3,5-Trinitroperhydro-1,3,5-triazine (RDX), and Nile Blue.

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Journal: Nanomaterials (Basel) Date: 2022-06-22 Impact factor: 5.719

4. Flexible Plasmonic Sensors.

Authors: Daniel Shir; Zachary S Ballard; Aydogan Ozcan
Journal: IEEE J Sel Top Quantum Electron Date: 2016-04-01 Impact factor: 4.544

5. Bioplasmonic calligraphy for multiplexed label-free biodetection.

Authors: Limei Tian; Sirimuvva Tadepalli; Sang Hyun Park; Keng-Ku Liu; Jeremiah J Morrissey; Evan D Kharasch; Rajesh R Naik; Srikanth Singamaneni
Journal: Biosens Bioelectron Date: 2014-03-29 Impact factor: 10.618

6. Low-Cost, Disposable, Flexible and Highly Reproducible Screen Printed SERS Substrates for the Detection of Various Chemicals.

Authors: Wei Wu; Li Liu; Zhigao Dai; Juhua Liu; Shuanglei Yang; Li Zhou; Xiangheng Xiao; Changzhong Jiang; Vellaisamy A L Roy
Journal: Sci Rep Date: 2015-05-14 Impact factor: 4.379

7. Office paper decorated with silver nanostars - an alternative cost effective platform for trace analyte detection by SERS.

Authors: Maria João Oliveira; Pedro Quaresma; Miguel Peixoto de Almeida; Andreia Araújo; Eulália Pereira; Elvira Fortunato; Rodrigo Martins; Ricardo Franco; Hugo Águas
Journal: Sci Rep Date: 2017-05-30 Impact factor: 4.379