Siddhartha Maiti
Portland, OR, 97229
Work: 503-***-****; Home: 774-***-****
Email: aczg3s@r.postjobfree.com & aczg3s@r.postjobfree.com
EDUCATION
Doctor of Philosophy, Biomedical Engineering and Biotechnology under Chemistry Department, University of Massachusetts Dartmouth, North Dartmouth, MA (May 2016)
Dissertation: “Developing Fluorescent Sensors for the Bioimaging of Chelatable Iron (II) Ions”
Master of Science, Biomedical Engineering and Biotechnology under Chemistry Department, University of Massachusetts Dartmouth, North Dartmouth, MA (May 2011)
Bachelor of Technology, Biotechnology, West Bengal University of Technology, India (July 2009)
EXPERIENCE
Process Technology Development Engineer, Intel Corporation, OR, June 2016-present
Design and plan layout for material processing operations, including hardening, washing, laminating, etching, engraving, polishing, painting, and plating.
Define roadmaps, establish flow, procedure, and equipment configuration for new technology process.
Develop and drive process improvements on material and equipment to meet quality, reliability, cost, yield, productivity and manufacturability requirements.
Plan and conduct experiments to fully characterize the process throughout the development cycle. Establish process control systems and develop strategies to resolve problems.
Design, create and support processes for high volume manufacturing.
Research Assistant, University of Massachusetts-Dartmouth, 2011-2016
Developed an ibuprofen drug delivery system based on electrospun nanofibres, with a control over the release profiles established by varying fiber morphology.
Developed molecular imaging probes to detect endogenous basal level Fe2+, as well as the dynamic changes in cellular Fe2+ levels at subcellular level.
Synthesized medicinally active organic compounds to evaluate their antibacterial and anticancer activities.
Purified and collected PTP1B (Protein tyrosine phosphatase1B) using Ni-NTA column (Affinity Chromatography).
TECHNICAL SKILLS
Spectroscopy: UV-Vis, Fluorescence, FT-IR, Nuclear Magnetic Resonance (NMR) (1H, 13 C, 2D COSY and 2D NOESY), Electron Paramagnetic Resonance (EPR)
Imaging and Microscopy: Scanning Electron Microscopy (SEM) and Confocal Microscopy
Analytical: Liquid Chromatography-Mass Spectrometry (LC-MS), High-performance liquid chromatography (HPLC)
AWARDS & ACHIEVEMENTS
Secured 1st rank in B. Tech in Biotechnology, Bengal College of Engineering and technology, India.
Won 1st prize in a TECH FEST organized by Bengal College of Engineering and technology, India.
CONFERENCE PRESENTATIONS
Maiti, S., Jimenez-Rios, J.L., and Bhowmick, S., June 22, 2011. Ibuprofen Release from Electrospun Nanofibres. ASME Summer Bioengineering Conference, Farmington, PA.
Maiti, S., and Guo, M., April 19, 2011. Anticancer activities of artemisinin derivatives towards human cancer cells. Sigma Xi conference, University of Massachusetts Dartmouth, North Dartmouth, MA
Maiti, S.; Aydin, Z.; Zhang, Y.; and Guo, M., April 23, 2013. A turn-on fluorescent sensor for iron (II) to visualize labile iron in living cells at subcellular resolution. Sigma Xi conference, University of Massachusetts Dartmouth, North Dartmouth, MA.
Maiti, S.; Aydin, Z.; Zhang, Y.; and Guo, M., April 15, 2014. A Dual Probe with Fluorescent and Magnetic Properties for Bioimaging of Iron (II) Ions in Live Cells. Sigma Xi conference, University of Massachusetts Dartmouth, North Dartmouth, MA.
Maiti, S.; Aydin, Z.; Yan, B.; and Guo, M., April 22, 2015. Developing fluorescent sensors for iron (II) imaging in living systems. Sigma Xi conference, University of Massachusetts Dartmouth, North Dartmouth, MA
Guo, M.; Aydin, Z.; Maiti, S.; Wei, Y; Zhang, Y., and Yan, B., July 20, 2015.Molecular Imaging of Iron Ions in Living System: Subcellular Trafficking and Quantification. ICBIC17, Beijing, China.
PUBLICATIONS
Maiti, S.; Aydin, Z.; Zhang, Y.; and Guo, M. “Reaction-based turn-on fluorescent probes with magnetic responses for Fe2+ detection in live cells”. Dalton Trans, 44, 8942-8949.
Maiti, S.; Aydin, Z.; Yan, B.; and Guo, M. A Rhodamine based turn-on fluorescent sensor for imaging labile Fe2+ in cells (in preparation).
Maiti, S.; Aydin, Z.; Yan, B.; and Guo, M. A Ratiometric turn-on fluorescent sensor for imaging and determination of concentration of labile Fe2+ in cells (in preparation).
Maiti, S.; Aydin, Z.; Yan, B.; and Guo, M. A Near infrared turn-on ratiometric fluorescent sensor for the determination of trafficking pathway and concentration of Fe2+ in live Cells (in preparation).