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プロフィール詳細
Dr. Greg L.に依頼
United States
PhD Chemist with 6+ years industry experience working in the medical devices, pharmaceutical, and biotechnology fields.
プロフィール概要
専門分野
サービス
Writing
Technical Writing,
Copywriting,
Newswriting
Research
Market Research,
User Research,
Meta-Research,
Feasibility Study,
Fact Checking,
Gap Analysis,
Gray Literature Search,
Systematic Literature Review,
Secondary Data Collection
Consulting
Scientific and Technical Consulting
Data & AI
Statistical Analysis,
Data Visualization,
Big Data Analytics,
Data Processing
Product Development
Formulation,
Stability/Shelf Life Testing,
Product Evaluation,
Product Validation,
Concept Development
職務経験
Senior Scientist / Group Manager
LightDeck Diagnostics
6月 2021 - 現在
Senior Scientist
MBio Diagnostics (United States)
6月 2021 - 現在 ![]()
Senior Scientist
BioHybrid Solutions (United States)
2月 2018 - 5月 2021 ![]()
Senior Scientist / Group Manager
BioHybrid Solutions
2月 2018 - 5月 2021
Vice President of Engineering
Accel Diagnostics
9月 2016 - 2月 2018
VP of Engineering
Accel Diagnostics (United States)
8月 2015 - 2月 2018 ![]()
学歴
Ph.D., Chemistry
Pennsylvania State University
6月 2011 - 7月 2015
PhD (Chemistry)
Pennsylvania State University
6月 2011 - 5月 2015 ![]()
BS Biochemistry and Molecular Biology
Ursinus College
9月 2007 - 5月 2011
認定資格
- 認定資格の詳細は未入力です。
出版物
JOURNAL ARTICLE
Dilauro, A.M., Lewis, G.G., Phillips, S.T.(2015). Self-Immolative Poly(4,5-dichlorophthalaldehyde) and its Applications in Multi-Stimuli-Responsive Macroscopic Plastics . Angewandte Chemie - International Edition. 54. (21). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 6200-6205.
Brooks, A.D., Yeung, K., Lewis, G.G., Phillips, S.T.(2015). A strategy for minimizing background signal in autoinductive signal amplification reactions for point-of-need assays . Analytical Methods. 7. (17). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 7186-7192.
Baker, M.S., Kim, H., Olah, M.G., Lewis, G.G., Phillips, S.T.(2015). Depolymerizable poly(benzyl ether)-based materials for selective room temperature recycling . Green Chemistry. 17. (9). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 4541-4545.
Thom, N.K., Lewis, G.G., Yeung, K., Phillips, S.T.(2014). Quantitative fluorescence assays using a self-powered paper-based microfluidic device and a camera-equipped cellular phone . RSC Advances. 4. (3). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 1334-1340.
Phillips, S.T., Lewis, G.G.(2014). The expanding role of paper in point-of-care diagnostics . Expert Review of Molecular Diagnostics. 14. (2). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 123-125.
Goodwin, C.M., Lewis, G.G., Fiorella, A., Ellison, M.D., Kohn, R.(2014). Synthesis and toxicity testing of cysteine-functionalized single-walled carbon nanotubes with Caenorhabditis elegans . RSC Advances. 4. (12). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 5893-5900.
Lewis, G.G., Robbins, J.S., Phillips, S.T.(2014). A prototype point-of-use assay for measuring heavy metal contamination in water using time as a quantitative readout . Chemical Communications. 50. (40). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 5352-5354.
Phillips, S.T., Lewis, G.G.(2013). Advances in materials that enable quantitative point-of-care assays . MRS Bulletin. 38. (4). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 315-319.
Thom, N.K., Lewis, G.G., Ditucci, M.J., Phillips, S.T.(2013). Two general designs for fluidic batteries in paper-based microfluidic devices that provide predictable and tunable sources of power for on-chip assays . RSC Advances. 3. (19). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 6888-6895.
Lewis, G.G., Robbins, J.S., Phillips, S.T.(2013). Point-of-care assay platform for quantifying active enzymes to femtomolar levels using measurements of time as the readout . Analytical Chemistry. 85. (21). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 10432-10439.
Lewis, G.G., Robbins, J.S., Phillips, S.T.(2013). Phase-switching depolymerizable poly(carbamate) oligomers for signal amplification in quantitative time-based assays . Macromolecules. 46. (13). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 5177-5183.
Lewis, G.G., Ditucci, M.J., Phillips, S.T.(2012). Quantifying analytes in paper-based microfluidic devices without using external electronic readers . Angewandte Chemie - International Edition. 51. (51). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 12707-12710.
Lewis, G.G., Ditucci, M.J., Baker, M.S., Phillips, S.T.(2012). High throughput method for prototyping three-dimensional, paper-based microfluidic devices . Lab on a Chip. 12. (15). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 2630-2633.
Ellison, M.D., Buckley, L.K., Lewis, G.G., Smith, C.E., Siedlecka, E.M., Palchak, C.V., Malarchik, J.M.(2009). Photochemical hydroboration-oxidation of single-walled carbon nanotubes . Journal of Physical Chemistry C. 113. (43). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 18536-18541.
BOOK
Lewis, G.G., Phillips, S.T.(2015). Quantitative point-of-care(POC) Assays using measurements of time as the readout: A new type of readout for mHealth . Methods in Molecular Biology. 1256. Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 213-229.