Jacob Hewes Email and Phone Number
I am a Bioengineering M.S. graduate with a diverse background in biotechnology, drug and gene delivery, biomaterials, and biotherapeutics. My experience spans academic research and industry R&D, where I've developed innovative solutions, advanced scientific understanding, and gained hands-on expertise in biomaterials, cell culture, and therapeutic development. I’m actively pursuing opportunities in engineering, business, or related fields where I can make a meaningful impact.In addition to my technical skills, I bring a broad set of competencies cultivated through a range of experiences, including project management, data analysis, strategic thinking, and communication. I have a strong work ethic and thrive in dynamic environments, combining problem-solving skills with a passion for learning and continuous improvement. I enjoy collaborating across disciplines to bridge the gap between technical expertise and practical solutions, driving progress and helping organizations achieve their goals.I am passionate about leveraging my background to drive progress in life sciences and beyond. I’m particularly interested in roles that allow me to combine my engineering expertise with strategic decision-making to solve complex challenges. Beyond my work, I have a keen interest in data analytics and finance, where I apply my analytical skills to explore market trends and make data-driven decisions. I’m also committed to health and fitness, and I enjoy integrating these interests into my professional life by promoting wellness within the STEM community. I'm excited to bring my skills, adaptability, and leadership potential to new challenges as I advance my career.
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Cell Culture Channel Specialist - NortheastCytivaWashington, Dc, Us
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Graduate Research AssistantGeorgia Institute Of Technology Aug 2023 - Aug 2024Atlanta, Georgia, United StatesAs a Master's student in Bioengineering at Georgia Tech, I served as a Graduate Research Assistant in the Garcia Lab, where I engineered synthetic polyethylene glycol-based hydrogels for culturing human intestinal enteroids to advance treatments for inflammatory bowel diseases (IBD). I generated human intestinal organoids (HIOs) from human pluripotent stem cells (hPSCs) for therapeutic applications and synthesized hydrogels to support both in vitro HIO generation and in vivo delivery. I conducted experiments to deliver HIOs using these hydrogels to injured murine intestinal tissue, assessing their viability and engraftment potential. -
Brand AmbassadorBare Performance Nutrition Jan 2023 - Dec 2023Round Rock, Texas, United StatesPromote Bare Performance Nutrition's mission and products while inspiring, leading, and educating everyone to push their limits, overcome rejection/failure, and accomplish their goals. I attend weekly team calls focusing on fitness, personal development, building a fitness business, and connecting with the BPN family. I work with a group of like-minded individuals who wake up every day to live a life of self-improvement, helping others, and to GO ONE MORE. -
Computer Programming And Software Development InternBiocurie May 2023 - Aug 2023Delaware, United StatesAs a computer programming and software development intern, I aided in the front-end development of the first scalable AI-driven software for cell and gene therapy (CGT) production. I also collected and analyzed academic, industry, and clinical trial AAV and cell therapy data for training the AI-driven software. Additionally, I collaborated with and processed proprietary CGT data received from industry-leading hospitals and institutions, performed competitive analysis of current and potential software companies seeking to improve CGT manufacturing, and contributed to the creation of essential business assets supporting effective communication and strategic outreach efforts. -
Undergraduate Student ResearcherSullivan Research Group Mar 2021 - May 2023University Of DelawareFocused on optimizing gene delivery systems and formulating histone peptide nanocarriers. Researched the effects of cell migration on polyethyleneimine/pDNA polyplex transfection efficacy, including optimizing polyplex systems and developing an in vitro wound model. Synthesized and characterized polyplexes with polyethyleneimine and histone H3 tail peptides for nuclear DNA delivery using dynamic light scattering and gel electrophoresis.
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Research And Development InternCenter For Breakthrough Medicines May 2022 - Aug 2022King Of Prussia, Pennsylvania, United States- Designed and carried out experiments to optimize the upstream production of adeno-associated viruses (AAVs)- Captured fluorescence microscopy images and acquired cell proliferation and viability data for transfected HEK-293 cells- Assisted with the downstream purification of viral species and performed assays to characterize viral and capsid titers- Developed a cis-plasmid with intact inverted terminal repeats (ITRs) optimized for AAV DNA packaging that significantly improved the percentage of full particles in purified preparations and increased the amount of isolated full particles -
Fitness MonitorUniversity Of Delaware Recreation Services Jan 2022 - Apr 2022Newark, Delaware, United StatesSupervise the University fitness centers and participants, provide customer service, enforce rules, and clean the equipment.
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LifeguardYmca Of Greater Brandywine Jan 2021 - May 2021West Grove, Pennsylvania, United StatesEnsures the safety of members during swimming activities, enforces pool policies and regulations, and provides emergency care. -
Academic TutorHewes Tutoring Nov 2018 - May 2021Oxford, PennsylvaniaCo-Founder and CEO of local tutoring organization offering personalized in-home and online tutoring services in math, science, and standardized test prep (SAT & ACT).
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Undergraduate ResearcherWagner Research Group Jun 2018 - Mar 2021University Of DelawareDeveloped a 2-dimensional mathematical model to predict drug release from PLGA-polymer rod delivery systems, investigating relevant mechanisms and characterization methods. Formulated geopolymer cement samples for potential NASA use, optimizing variables to enhance compressive strength. Researched shear-thickening fluids for space suit applications, leading to significant improvements in puncture resistance and durability through space exposure.
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Research AssistantCenter For Composite Materials Jan 2020 - Mar 2020Newark, DelawareCreated solid modeling for the fiber volume fraction composite on LS-DYNA softwareConducted simulation tests on LS-DYNA to collect data regarding composite material strength -
Undergraduate ResearcherUniversity Of Delaware Jun 2019 - Jan 2020University Of DelawareNASA’s plans of going to the Moon and Mars to stay requires a building material that can be used to create structures that protect inhabitants from the hazardous environments. For such a mission to be feasible, it is imperative to significantly reduce the amount of resources launched from Earth. Lunar and Martian regoliths are aluminosilicate sources that react with highly concentrated aqueous alkaline solutions to form geopolymers, materials that provide comparable performance to traditional cementitious binders with a minimal need for water during their production. The goal of my work was to examine whether we can successfully make cement from these regoliths. Through qualitative and quantitative testing, it was determined that geopoylmer cement could be manufactured from on site lunar regoliths and sodium hydroxide. NASA plans to use the technology on their mission to the Moon in 2024 to create landing pads, human habitats, and other extraterrestrial structures. -
Academic TutorClub Z! In-Home Tutoring Services Feb 2019 - Jan 2020Oxford, PennsylvaniaIn-home tutor providing math, science, and standardized test prep (SAT & ACT). -
Chemical Engineering InternUniversity Of Delaware Jun 2018 - Aug 2018Colburn LaboratoryResearching the intercalation of the thermal micrometeoroid garment (TMG) of extra-vehicular activity (EVA) suits with a colloidal shear thickening fluid (STF) to increase the puncture and cut resistance to small micrometeoroid and orbital debris (MMOD) as well as the craters formed on materials from MMOD impact. Upon impact, the STF exceeds its critical stress limit causing the material it is intercalated with to become rigid; once the stress is removed, the material returns to its liquid-like, flexible state. Through analysis and testing done in conjunction with NASA, samples have shown to decrease the weight and thickness of the TMG lay-up, maintain comparable flexibility, and greatly increase the energy absorbed in tested impacts.
Jacob Hewes Education Details
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Chemical And Biomolecular Engineering
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High School Diploma
Frequently Asked Questions about Jacob Hewes
What company does Jacob Hewes work for?
Jacob Hewes works for Cytiva
What is Jacob Hewes's role at the current company?
Jacob Hewes's current role is Cell Culture Channel Specialist - Northeast.
What schools did Jacob Hewes attend?
Jacob Hewes attended Georgia Institute Of Technology, University Of Delaware, Oxford Area High School.
Who are Jacob Hewes's colleagues?
Jacob Hewes's colleagues are Dmitri Slopak, Amanda Persson, Amanda Schieffer, Izabela Danieluk, Jane Malva Türnpuu, Sebastian Dürr, Katrin Marianne Schmitt.
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Jake Hewes, PMP
International Sales Manager - Americas & Asia PacificGreater Minneapolis-St. Paul Area3d.umn.edu, gmail.com, rota-eng.com2 +161281XXXXX
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