- P-ISSN 1225-0163
- E-ISSN 2288-8985
- 권한신청
- P-ISSN1225-0163
- E-ISSN2288-8985
- SCOPUS, ESCI, KCI
논문 상세
Home > 논문 상세
Do-It-Yourself (DIY) manufacture of a Nano-LC MALDI spotter robot using 3D printing technology
분석과학 / Analytical Science and Technology, (P)1225-0163; (E)2288-8985
2017, v.30 no.4, pp.167-173
https://doi.org/10.5806/AST.2017.30.4.167
(서강대학교)
(서강대학교)
(서강대학교)
이재웅,
&
오한빈.
(2017). . 분석과학, 30(4), 167-173, https://doi.org/10.5806/AST.2017.30.4.167
- 다운로드 수
- 조회수
Abstract
In the era of the forth Industrial Revolution, open source code and open source hardware have gained much attention. In particular, 3D printing technology is expanding into the realms of classical science, technology and our daily lives. Relatedly, in the present study, we demonstrate the manufacture of a nano-LC MALDI spotter robot using 3D printing technology. The parts of the spotter robot were either made using a 3D printer or purchased as 3D printer parts from the 3D printer online market, so that anyone can make the robot without a deep knowledge of engineering or electronics, i.e., DIY (do-it-yourself) product. In the nano-LC MALDI spotter, the nano-LC eluent and MALDI matrix were mixed in a T-union and discharged from the capillary outlet. The eluent and matrix mixture could be spotted onto the movable MALDI plate. The MALDI plate was designed to translate in a two-dimensional space (xy plane), which was enabled by the movements of two stepper motors. In the paper, all computer-aided design (CAD) files for the parts and operation software are provided to help the reader manufacture their own spotter robot.
- keywords
- MALDI, Do-it-yourself, Spotter, Robot, 3D printing, liquid chromatography
참고문헌
1
1. A brief history of 3D printing, https://individual. troweprice.com/staticFiles/Retail/Shared/PDFs/3D_Printing _ Infographic _FINAL.pdf, Assessed May 2012.
2
2. B. C. Gross and D. M. Spence, Anal. Chem., 86(7), 3240-3253 (2014).
3
3. R. Walczak and K. Adamski, J. Micromech. Microeng., 25, 085013 (2015).
4
4. M. Coakley and D. E. Hurt, J. Lab. Autom., 21(4), 489-495 (2016).
5
5. Y. He and J.-J. Qiu, Electroanal., 28, 1658-1678 (2016).
6
6. E. K. Grasse and A. W. Smith, J. Chem. Educ., 93(1), 146-151 (2016).
7
7. P. Lolur and R. Dawes, J. Chem. Educ., 91(8), 1181-1184 (2014).
8
8. C. Stewart and J. Giannini, J. Chem. Educ., 93, 1310-1315 (2016).
9
9. S. M.-Jarquín and R. Winkler, Anal. Chem., 88(14), 6976-6980 (2016).
10
10. Y. Hioki and K. Tanaka, Anal. Chem., 86(5), 2549-2558(2014).
11
11. Y. Yang and T. W. Thannhauser, J. Biomol. Tech., 18(4), 226-237 (2007).
12
12. Polulu, https://www.pololu.com/product/1182.
권호 내 다른 논문
- Effect of particle size of TiO2 and octyl-methoxycinnamate (OMC) content on sun protection factor (SPF)
- Do-It-Yourself (DIY) manufacture of a Nano-LC MALDI spotter robot using 3D printing technology
- Analysis of fatty acid methyl ester in bio-liquid by hollow fiber-liquid phase microextraction
- Variation in chemical composition of Asian dusts on Jeju Island related to their inflow pathways during 2010-2015
- Sensitive determination of pendimethalin and dinoseb in environmental water by ultra performance liquid chromatography–tandem mass spectrometry
- Quantitative comparison of acidic polysaccharides in the endosperm of two major varieties of rice
- Temperature-dependent studies on catalytic hydrosilation of polyalkylsiloxane using NMR
- more
추천 논문
학술지 홈페이지 이용 환경은 크롬 브라우저 사용을 권장합니다.