Sponsored Research and Awards

* Industrial Research and Collaborations are not included

  • Winchester received Army SBIR Phase 1 Option and Phase 2: “Additively Manufactured Functionally Graded Radomes for Hypersonic Vehicles” – 2021/8
  • Winchester received DARPA Phase 1: “Novel Handheld Sensors for Instant Detection of SARA-CoV-2 from the Air” – 2021/2
  • Winchester received Army SBIR Phase 2: “Compact and Passive Thin-Film Frequency-Selective Limiters for Resilient Antijamming GPS Receivers” – 2020/8
  • Winchester received Army SBIR Phase 1: “Additively Manufactured Functionally Graded Radomes for Hypersonic Vehicles” – 2020/7
  • Winchester received Navy SBIR Phase 1: “Rapid Reconstitution of Submarine Shore Very Low Frequency (VLF) Communications System” – 2020/6
  • Northeastern, Winchester, and U Mass Medical School are awarded from the Rapid Acceleration of Diagnostics (RADx) Award by the National Institute of Health (NIH) to develop a rapid SARS-CoV-2 diagnosis system in the form of a handheld gas sensor by breathing into it – 2020/8
  • Winchester received MDA SBIR Phase 1: “Ultra-compact Very Low-Frequency Magnetoelectric Antennas and Communication Systems for Hypersonic Flight” – 2019/12
  • Winchester received Army SBIR Phase 1: “Low-Temperature Spin Spray Deposition of High Crystalline Quality Magnetic and Antiferromagnetic Oxide Films on Topological Insulators” – 2019/12
  • Winchester received Army SBIR Phase 2 Option: “CMOS Compatible Deposition of Multi-Ferroic Films for Tunable Microwave Applications” – 2019/11
  • Winchester received Army STTR Phase 2 Option: “Multiferroic Material for RF Application” – 2019/10
  • Winchester received Army SBIR Phase 2 Option: “Low-Loss Commercial Deposition Technology for Thick Ferrites and Ferrite/Insulator Films on Printed Circuit Boards” – 2019/9
  • Winchester received Navy STTR Phase 2 Option: “High Hesitivity Magnetic Materials for Magnetic Toroid and Flat Dipole Antennas” – 2019/6
  • Winchester received Army SBIR Phase 2: “CMOS Compatible Deposition of Multi-Ferroic Films for Tunable Microwave Applications” – 2018/11
  • Winchester received Army STTR Phase 2: “Multiferroic Material for RF Application” – 2018/10
  • Winchester received Army SBIR Phase 2: “Low-Loss Commercial Deposition Technology for Thick Ferrites and Ferrite/Insulator Films on Printed Circuit Boards” – 2018/9
  • Winchester received Army SBIR Phase 1 Option: “CMOS Compatible Deposition of Multi-Ferroic Films for Tunable Microwave Applications” – 2018/7
  • Winchester received Navy STTR Phase 2: “High Hesitivity Magnetic Materials for Magnetic Toroid and Flat Dipole Antennas” – 2018/6
  • Winchester received Army SBIR Phase 1: “Tunable Textured Composites for Lightweight Power Systems” – 2017/10
  • Winchester received Navy STTR Phase 1: “Miniature Oriented Tri-Axial Fluxgate Magnetometer Sensor” – 2017/9
  • Winchester received Army SBIR Phase 1: “CMOS Compatible Deposition of Multi-Ferroic Films for Tunable Microwave Applications” – 2017/8
  • Winchester received Navy STTR Phase 1: “Low-Cost Magnetic Sensor for Mine Neutralizer Identification and Charge Placement” – 2017/7
  • Winchester received Army SBIR Phase 1: “Low-Loss Commercial Deposition Technology for Thick Ferrites and Ferrite/Insulator Films on Printed Circuit Boards” – 2016/8
  • Winchester received Navy STTR Phase 1: “High Hesitivity Magnetic Materials for Magnetic Toroid and Flat Dipole Antennas” – 2016/7
  • Winchester received AFRL SBIR Phase 2: “Sensitive and Selective Chemical Sensor Using Molecularly-Imprinted Single-Layer Graphene” – 2015/4
  • Winchester received DARPA STTR Phase 2: “Multiferroic Material for RF Application” – 2015/1
  • Winchester received DARPA STTR Phase 1: “Multiferroic Material for RF Application” – 2014/4
  • Winchester received NSF award: Compact and Power Efficient Integrated Voltage Tunable RF Inductors and Transformers with Wide Tunable Inductor Range” – 2013/7
  • Winchester received Navy SBIR Phase 1: “Electric Field Tunable Multi-Ferroic Filters for C-band RF Applications” – 2011/5
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