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SLAS technology

Showing results (71-80 of 736) with videos related to

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SLAS Technology|November 3, 2022
DOX-loaded hydroxyapatite nanoclusters for colorectal cancer (CRC) chemotherapy: Evaluation based on the cancer cells and organoidsTianhao Deng, Dandan Luo, Rui Zhang, et al.
SLAS Technology|May 16, 2019
Advances in Technologies for Purification and Enrichment of Extracellular VesiclesPan Zhang, Joo Chuan Yeo, Chwee Teck Lim
SLAS Technology|January 31, 2022
The 2022 SLAS technology ten: Translating life sciences innovationEdward Kai-Hua Chow
SLAS Technology|September 11, 2018
Development of an Automated UV Irradiation Device for Microbial Cell CultureAtsushi Shibai, Saburo Tsuru, Tetsuya Yomo
SLAS Technology|October 6, 2018
Scalable Microfluidic Platform for Flexible Configuration of and Experiments with Microtissue Multiorgan ModelsChristian Lohasz, Nassim Rousset, Kasper Renggli, et al.
SLAS Technology|October 6, 2018
Mutation Profiles in Glioblastoma 3D Oncospheres Modulate Drug EfficacyKelli M Wilson, Lesley A Mathews-Griner, Tara Williamson, et al.
SLAS Technology|October 5, 2018
Human iPS Cell-Derived Patient Tissues and 3D Cell Culture Part 1: Target Identification and Lead OptimizationRichard M Eglen, Terry Reisine
SLAS Technology|April 3, 2022
Development of a fully automated platform for agar-based measurement of viable bacterial growthBrian Squadroni, William Newhard, Donna Carr, et al.
SLAS Technology|April 3, 2022
Analysis of Alburnus tarichi population by machine learning classification methods for sustainable fisheriesYasemin Gültepe
SLAS Technology|May 8, 2019
An Equipment-Free, Paper-Based Electrochemical Sensor for Visual Monitoring of Glucose Levels in UrineMaedeh Mohammadifar, Mehdi Tahernia, Seokheun Choi
Pageof 74

Showing results (71-80 of 736) with videos related to

Sort By:
Pageof 74
SLAS Technology|November 3, 2022
DOX-loaded hydroxyapatite nanoclusters for colorectal cancer (CRC) chemotherapy: Evaluation based on the cancer cells and organoidsTianhao Deng, Dandan Luo, Rui Zhang, et al.
SLAS Technology|May 16, 2019
Advances in Technologies for Purification and Enrichment of Extracellular VesiclesPan Zhang, Joo Chuan Yeo, Chwee Teck Lim
SLAS Technology|January 31, 2022
The 2022 SLAS technology ten: Translating life sciences innovationEdward Kai-Hua Chow
SLAS Technology|September 11, 2018
Development of an Automated UV Irradiation Device for Microbial Cell CultureAtsushi Shibai, Saburo Tsuru, Tetsuya Yomo
SLAS Technology|October 6, 2018
Scalable Microfluidic Platform for Flexible Configuration of and Experiments with Microtissue Multiorgan ModelsChristian Lohasz, Nassim Rousset, Kasper Renggli, et al.
SLAS Technology|October 6, 2018
Mutation Profiles in Glioblastoma 3D Oncospheres Modulate Drug EfficacyKelli M Wilson, Lesley A Mathews-Griner, Tara Williamson, et al.
SLAS Technology|October 5, 2018
Human iPS Cell-Derived Patient Tissues and 3D Cell Culture Part 1: Target Identification and Lead OptimizationRichard M Eglen, Terry Reisine
SLAS Technology|April 3, 2022
Development of a fully automated platform for agar-based measurement of viable bacterial growthBrian Squadroni, William Newhard, Donna Carr, et al.
SLAS Technology|April 3, 2022
Analysis of Alburnus tarichi population by machine learning classification methods for sustainable fisheriesYasemin Gültepe
SLAS Technology|May 8, 2019
An Equipment-Free, Paper-Based Electrochemical Sensor for Visual Monitoring of Glucose Levels in UrineMaedeh Mohammadifar, Mehdi Tahernia, Seokheun Choi
Pageof 74