SUBJECTS : Laboratory Automation Technologies | | Informatics | Quatitative Techniques | Nanotechnology | Microtechnolog
SLAS Technology: 2023, vol: 28, issue: 4
- 1)- Tal Murthy, Jamien Lim. Life sciences discovery and technology highlights. SLAS technology. 2023, 28 (4): 211-213
Cited : 0Read More - 2)- Jingru Xu, Edward Kai-Hua Chow. Biomedical applications of nanodiamonds: From drug-delivery to diagnostics. SLAS technology. 2023, 28 (4): 214-222Cited : 7Read More
- 3)- Alysia Cox, Madelynn Tung, Hui Li, Kenneth R Hallows, Eun Ji Chung. In vitro delivery of mTOR inhibitors by kidney-targeted micelles for autosomal dominant polycystic kidney disease. SLAS technology. 2023, 28 (4): 223-229Cited : 4Read More
- 4)- Finola E Cliffe, Conor Madden, Patrick Costello, Shane Devitt, Sumir Ramesh Mukkunda, Bhairavi Bengaluru Keshava, Howard O Fearnhead, Aiste Vitkauskaite, Mahshid H Dehkordi, Walter Chingwaru, Milosz Przyjalgowski, Natalia Rebrova, Mark Lyons. Mera: A scalable high throughput automated micro-physiological system. SLAS technology. 2023, 28 (4): 230-242Cited : 0Read More
- 5)- Patrick A Kates, Jordan N Cook, Ryan Ghan, Huey J Nguyen, Pongkwan Sitasuwan, L Andrew Lee. Incorporation of automated buffer exchange empowers high-throughput protein and plasmid purification for downstream uses. SLAS technology. 2023, 28 (4): 243-250Cited : 1Read More
- 6)- Nina Sara Fraticelli Guzmán, Mohamed W Badawy, Max A Stockslager, Michael L Farrell, Caitlin van Zyl, Seth Stewart, David L Hu, Craig R Forest. Quantitative assessment of automated purification and concentration of E. coli bacteria. SLAS technology. 2023, 28 (4): 251-257Cited : 0Read More
- 7)- Ivana Fileš, Vincent Andersson. Automated sample preparation of protein solid dosage forms: Novel application for the tablet processing workstation. SLAS technology. 2023, 28 (4): 258-263Cited : 0Read More
- 8)- Yuya Arai, Ko Takahashi, Takaaki Horinouchi, Koichi Takahashi, Haruka Ozaki. SAGAS: Simulated annealing and greedy algorithm scheduler for laboratory automation. SLAS technology. 2023, 28 (4): 264-277Cited : 0Read More
- 9)- Toan V Phan, Yamin Oo, Teerapat Rodboon, Truc T Nguyen, Ladawan Sariya, Risa Chaisuparat, Waranyoo Phoolcharoen, Supansa Yodmuang, Joao N Ferreira. Plant molecular farming-derived epidermal growth factor revolutionizes hydrogels for improving glandular epithelial organoid biofabrication. SLAS technology. 2023, 28 (4): 278-291Cited : 0Read More
