SLAS Technology emphasizes scientific and technical advances that enable and improve life sciences research and development; drug-delivery; diagnostics; biomedical and molecular imaging; and personalized and precision medicine. This includes high-throughput and other laboratory automation technologies; micro/nanotechnologies; analytical, separation and quantitative techniques; synthetic chemistry and biology; informatics (data analysis, statistics, bio, genomic and chemoinformatics); and more.
斯拉斯科技SLAS技术强调科学和技术的进步,促进和改善生命科学的研究和发展;药物递送;诊断;生物医学和分子成像;以及个性化和精准医疗。这包括高通量和其他实验室自动化技术;微米/纳米技术;分析、分离和定量技术;合成化学和生物学;信息学(数据分析、统计学、生物学、基因组学和化学信息学);和其他功能。
Automated MALDI Target Preparation Concept: Providing Ultra-High-Throughput Mass Spectrometry–Based Screening for Drug Discovery
来源期刊:SLAS TechnologyDOI:10.1177/2472630318791981
Standardizing Automated DNA Assembly: Best Practices, Metrics, and Protocols Using Robots
来源期刊:SLAS TechnologyDOI:10.1177/2472630318825335
Wearable Sensors for Monitoring Human Motion: A Review on Mechanisms, Materials, and Challenges
来源期刊:SLAS TechnologyDOI:10.1177/2472630319891128
siRNA-Conjugated Nanoparticles to Treat Ovarian Cancer
来源期刊:SLAS TechnologyDOI:10.1177/2472630318816668
Advances in Technologies for Purification and Enrichment of Extracellular Vesicles
来源期刊:SLAS TechnologyDOI:10.1177/2472630319846877
Current Progress in 3D Bioprinting of Tissue Analogs
来源期刊:SLAS TechnologyDOI:10.1177/2472630318799971
Rapid Production and Recovery of Cell Spheroids by Automated Droplet Microfluidics
来源期刊:SLAS TechnologyDOI:10.1177/2472630319877376
RapidFire BLAZE-Mode Is Boosting ESI-MS Toward High-Throughput-Screening
来源期刊:SLAS TechnologyDOI:10.1177/2472630318822449
Automated Fluorescence Lifetime Imaging High-Content Analysis of Förster Resonance Energy Transfer between Endogenously Labeled Kinetochore Proteins in Live Budding Yeast Cells
来源期刊:Slas TechnologyDOI:10.1177/2472630318819240
A Microfluidics Workflow for Sample Preparation for Next-Generation DNA Sequencing
来源期刊:SLAS TechnologyDOI:10.1177/2472630318796133
Nanomedicine for Cystic Fibrosis
来源期刊:SLAS TechnologyDOI:10.1177/2472630318824334
The Use of Hydrazones for Biomedical Applications
来源期刊:SLAS TechnologyDOI:10.1177/2472630318822713
FINDUS: An Open-Source 3D Printable Liquid-Handling Workstation for Laboratory Automation in Life Sciences
来源期刊:SLAS TechnologyDOI:10.1177/2472630319877374
Mutation Profiles in Glioblastoma 3D Oncospheres Modulate Drug Efficacy
来源期刊:SLAS TechnologyDOI:10.1177/2472630318803749
Biomicrofluidic Systems for Hematologic Cancer Research and Clinical Applications
来源期刊:SLAS TechnologyDOI:10.1177/2472630319846878
A Mass-Ratiometry-Based CD45 Barcoding Method for Mass Cytometry Detection
来源期刊:SLAS TechnologyDOI:10.1177/2472630319834057
Technologies for the Directed Evolution of Cell Therapies
来源期刊:NoneDOI:10.1177/2472630319834897
Human iPS Cell-Derived Patient Tissues and 3D Cell Culture Part 1: Target Identification and Lead Optimization
来源期刊:SLAS TechnologyDOI:10.1177/2472630318803277
CURATE.AI: Optimizing Personalized Medicine with Artificial Intelligence
来源期刊:SLAS TechnologyDOI:10.1177/2472630319890316
LabVIEW-Based Automated Setup for Interferometric Refractive Index Probing
来源期刊:SLAS TechnologyDOI:10.1177/2472630319891133
Design of Microplate-Compatible Illumination Panels for a Semiautomated Benchtop Pipetting System
来源期刊:SLAS TechnologyDOI:10.1177/2472630318822476
Artificial Intelligence-Driven Designer Drug Combinations: From Drug Development to Personalized Medicine
来源期刊:SLAS TechnologyDOI:10.1177/2472630318800774
Next-Generation Compound Delivery Platforms to Support Miniaturized Biology
来源期刊:SLAS TechnologyDOI:10.1177/2472630318820017
Fabrication of Bioengineered Skin by Injection Molding: A Feasibility Study on Automation
来源期刊:SLAS TechnologyDOI:10.1177/2472630319857966
A Single-Step Self-Assembly Approach for the Fabrication of Aligned and Multilayered Three-Dimensional Tissue Constructs Using Multidomain Peptide Hydrogel
来源期刊:SLAS TechnologyDOI:10.1177/2472630318777759
Vaccine Quality Ensured by High-Performance Anion-Exchange Chromatography with Pulsed Amperometric Detection
来源期刊:SLAS TechnologyDOI:10.1177/2472630319890309
Toward a New Approach in Wearable Devices in Safety Monitoring: Miniaturization and 3D Space Utilization
来源期刊:SLAS TechnologyDOI:10.1177/2472630319846873
DIY Automated Feeding and Motion Recording System for the Analysis of Fish Behavior
来源期刊:SLAS TechnologyDOI:10.1177/2472630319841412
Controlling Macroscopic Phase Separation of Aqueous Two-Phase Polymer Systems in Porous Media
来源期刊:SLAS TechnologyDOI:10.1177/2472630319861369
A Paper-Based Biological Solar Cell
来源期刊:SLAS TechnologyDOI:10.1177/2472630319875403
A Novel, Automated Dispersive Pipette Extraction Technology Greatly Simplifies Catecholamine Sample Preparation for Downstream LC-MS/MS Analysis
来源期刊:SLAS TechnologyDOI:10.1177/2472630318792659
Modification of AlphaLISA Excitation Wavelength Leads to Improved Assay Sensitivity for Photosynthetic Tissue Samples
来源期刊:SLAS TechnologyDOI:10.1177/2472630318821338
Distance and Microsphere Aggregation-Based DNA Detection in a Paper-Based Microfluidic Device
来源期刊:Slas TechnologyDOI:10.1177/2472630319887680
Multiple-Point Evaluation Algorithms for Enhanced Precision of Pathogen-Specific Cerebrospinal Fluid/Serum Antibody Index Calculation
来源期刊:SLAS TechnologyDOI:10.1177/2472630318783483
Typography-Like 3D-Printed Templates for the Lithography-Free Fabrication of Microfluidic Chips
来源期刊:SLAS TechnologyDOI:10.1177/2472630319867903
Trace Arsenic Determination in a TiO2 Pigment Matrix Using Electrothermal Atomic Absorption Spectrometry
来源期刊:SLAS TechnologyDOI:10.1177/2472630319877378
Life Sciences Discovery and Technology Highlights.
来源期刊:SLAS technologyDOI:10.1177/2472630319845009
The Complexity of Compliance in Sample Management: A Review of Key Issues Impacting Small-Molecule and Biological Sample Management in Early Drug Discovery
来源期刊:SLAS TechnologyDOI:10.1177/2472630318817735
The Science of Sample Management: Enabling Discovery from Bench to Clinic
来源期刊:SLAS TechnologyDOI:10.1177/2472630319848474
A Semi-Automated Tuberculosis Testing Workflow Reduces Manual Hazardous Sample Handling and Hands-On Time: A Proof-of-Concept Study
来源期刊:SLAS TechnologyDOI:10.1177/2472630319884519
Droplet-Based Immunosensor for Simultaneous Immunoassays of Multiplex Histidine-Tagged Proteins
来源期刊:SLAS TechnologyDOI:10.1177/2472630319879647
Rainbowarray Microsphere-Based Gene Detection Assay
来源期刊:SLAS TechnologyDOI:10.1177/2472630319882319
Convergence of Three-Dimensional Cell Culture and Human iPS Cells: Improving Clinical Relevance in Drug Discovery
来源期刊:SLAS TechnologyDOI:10.1177/2472630318810819
Oligonucleotide Preparation Approach for Assembly of DNA Synthons
来源期刊:SLAS TechnologyDOI:10.1177/2472630319850534
Establishing and Maintaining a Robust Sample Management System
来源期刊:SLAS TechnologyDOI:10.1177/2472630319834471
Modifying an ÄKTApurifier System for the Automated Acquisition of Samples for Kinetic Modeling of Batch Reactions
来源期刊:SLAS TechnologyDOI:10.1177/2472630319891976
Automated Analytical Measurement Processes Using a Dual-Arm Robotic System
来源期刊:SLAS TechnologyDOI:10.1177/2472630319827613
Online Measurement System in Reaction Monitoring for Determination of Structural and Elemental Composition Using Mass Spectrometry
来源期刊:SLAS TechnologyDOI:10.1177/2472630318813838
Exploiting Molecular Barcodes in High-Throughput Cellular Assays
来源期刊:SLAS TechnologyDOI:10.1177/2472630318824337
On the Way to Efficient Analytical Measurements: The Future of Robot-Based Measurements
来源期刊:SLAS TechnologyDOI:10.1177/2472630319886270
