Following the termination of the original NIAC program, Congress requested a review of the NIAC program by the United States National Research Council (NRC) of the National Academy of Sciences.[7] The review was done in 2009, and concluded that in order to achieve its mission, NASA needs "a mechanism to investigate visionary, far-reaching advanced concepts," and recommended that NIAC, or a NIAC-like program, should be reestablished.[2] Consistent with this recommendation, it was announced on March 1, 2011 that the NIAC was to be revived with similar goals[4] leading to the establishment in 2011 of a project within the NASA Office of Chief Technologist, the NASA Innovative Advanced Concepts,[5] maintaining the acronym NIAC. It is now part of the NASA Space Technology Mission Directorate (STMD).[8]
According to Michael Gazarik, director of NASA's Space Technology Program, "Through the NASA Innovative Advanced Concepts program, NASA is taking the long-term view of technological investment and the advancement that is essential for accomplishing our missions. We are inventing the ways in which next-generation aircraft and spacecraft will change the world and inspiring Americans to take bold steps."[9]
2011 NIAC Project Selections
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The revived NIAC, with the slightly-changed name "NASA Innovative Advanced Concepts," funded thirty phase-I studies in 2011 to investigate advanced concepts.[10][11]
- Duda, Kevin: Variable Vector Countermeasure Suit (V2Suit) for Space Habitation and Exploration
- Ferguson, Scott: Enabling All-Access Mobility for Planetary Exploration Vehicles via Transformative Reconfiguration
- Gilland, James: The Potential for Ambient Plasma Wave Propulsion
- Gregory, Daniel: Space Debris Elimination (SpaDE)
- Hogue, Michael: Regolith Derived Heat Shield for a Planetary Body Entry and Descent System with In-Situ Fabrication
- Hohman, Kurt: Atmospheric Breathing Electric Thruster for Planetary Exploration
- Howe, Steven: Economical Radioisotope Power
- Khoshnevis, Behrokh: Contour Crafting Simulation Plan for Lunar Settlement Infrastructure Build-Up
- Kwiat, Paul: Entanglement-assisted Communication System for NASA's Deep-Space Missions: Feasibility Test and Conceptual Design
- Mankins, John: SPS-ALPHA: The First Practical Solar Power Satellite via Arbitrarily Large PHased Array
- Miller, David: High-temperature Superconductors as Electromagnetic Deployment and Support Structures in Spacecraft
- Paul, Michael: Non-Radioisotope Power Systems For Sunless Solar System Exploration Missions
- Pavone, Marco: Spacecraft/Rover Hybrids for the Exploration of Small Solar System Bodies
- Ritter, Joe: Ultra-Light "Photonic Muscle" Space Structures
- Scott, Gregory: Low Power Microrobotics Utilizing Biologically Inspired Energy Generation
- Short, Kendra: Printable Spacecraft
- Sibille, Laurent: In-Space Propulsion Engine Architecture based on Sublimation of Planetary Resources: from exploration robots to NEO mitigation
- Silvera, Isaac: Metallic Hydrogen: A Game Changing Rocket Propellant
- Slough, John: Nuclear Propulsion through Direct Conversion of Fusion Energy
- Staehle, Robert: Interplanetary CubeSats: Opening the Solar System to a Broad Community at Lower Cost
- Strekalov, Dmitry: Ghost Imaging of Space Objects
- Stysley, Paul: Laser-Based Optical Trap for Remote Sampling of Interplanetary and Atmospheric Particulate Matter
- Swartzlander, Grover: Steering of Solar Sails Using Optical Lift Force
- Tarditi, Alfonso: Aneutronic Fusion Spacecraft Architecture
- Thibeault, Sheila: Radiation Shielding Materials Containing Hydrogen, Boron, and Nitrogen: Systematic Computational and Experimental Study
- Tripathi, Ram: Meeting the Grand Challenge of Protecting Astronaut's Health: Electrostatic Active Space Radiation Shielding for Deep Space Missions
- Werka, Robert: Proposal for a Concept Assessment of a Fission Fragment Rocket Engine (FFRE) Propelled Spacecraft
- Westover, Shayne: Radiation Protection and Architecture Utilizing High Temperature Superconducting Magnets
- Whittaker, William: Technologies Enabling Exploration of Skylights, Lava Tubes and Caves
- Wie, Bong: Optimal Dispersion of Near-Earth Objects
2012 NIAC Project Selections
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In August 2012, NIAC announced[12] selection of 18 new phase-I proposals, along with Phase-II grants for continuation of 10 projects selected in earlier solicitations.[9] These include many projects ranging from Landsailing rovers on Venus[13] to schemes to explore under the ice of Europa.[14] Phase I projects selected were:[15]
- Agogino, Adrian: Super Ball Bot - Structures for Planetary Landing and Exploration
- Arrieta, Juan: The Regolith Biters: A Divide-And-Conquer Architecture for Sample-Return Missions
- Cohen, Marc: Robotic Asteroid Prospector (RAP) Staged from L-1: Start of the Deep Space Economy
- Ditto, Thomas: HOMES - Holographic Optical Method for Exoplanet Spectroscopy
- Flynn, Michael: Water Walls: Highly Reliable and Massively Redundant Life Support Architecture
- Gellett, Wayne: Solid State Air Purification System
- Hoyt, Robert: NanoTHOR: Low-Cost Launch of Nanosatellites to Deep Space
- Hoyt, Robert: SpiderFab: Process for On-Orbit Construction of Kilometer-Scale Apertures
- Kirtley, David: A Plasma Aerocapture and Entry System for Manned Missions and Planetary Deep Space Orbiters
- Landis, Geoffrey: Venus Landsailing Rover
- Lantoine, Gregory: MAGNETOUR: Surfing Planetary Systems on Electromagnetic and Multi-Body Gravity Fields
- McCue, Leigh: Exploration of Under-Ice Regions with Ocean Profiling Agents (EUROPA)
- Nosanov, Jeffrey: Solar System Escape Architecture for Revolutionary Science (SSEARS)
- Predina, Joseph: NIST in Space: Better Remote Sensors for Better Science
- Quadrelli, Marco: Orbiting Rainbows: Optical Manipulation of Aerosols and the Beginnings of Future Space Construction
- Saif, Babak: Atom Interferometry for detection of Gravity Waves-a
- Winglee, Robert: Sample Return Systems for Extreme Environments
- Zha, GeCheng: Silent and Efficient Supersonic Bi-Directional Flying Wing
2013 NIAC Project Selections
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In 2013 NIAC conducted a third solicitation for proposals, with projects to start in the summer of 2013.[16] NASA selected 12 phase-I projects with a wide range of imaginative concepts, including 3-D printing of biomaterials, such as arrays of cells; using galactic rays to map the insides of asteroids; and an "eternal flight" platform that could hover in Earth's atmosphere, potentially providing better imaging, Wi-Fi, power generation, and other applications.[17] They selected 6 phase II projects, including photonic laser thrusters, extreme sample return, and innovative spherical robots designed for planetary exploration.[18]
Phase I selections were:[19]
- Adams, Rob: Pulsed Fission-Fusion (PuFF) Propulsion System
- Bradford, John: Torpor Inducing Transfer Habitat For Human Stasis To Mars
- Hemmati, Hamid: Two-Dimensional Planetary Surface Landers
- Jerred, Nathan: Dual-mode Propulsion System Enabling CubeSat Exploration of the Solar System
- Longman, Anthony: Growth Adapted Tensegrity Structures - A New Calculus for the Space Economy
- Moore, Mark: Eternal Flight as the Solution for 'X'
- Prettyman, Thomas: Deep Mapping of Small Solar System Bodies with Galactic Cosmic Ray Secondary Particle Showers
- Rothschild, Lynn: Biomaterials out of thin air: in situ, on-demand printing of advanced biocomposites
- Rovey, Joshua: Plasmonic Force Propulsion Revolutionizes Nano/PicoSatellite Capability
- Stoica, Adrian: Transformers For Extreme Environments
2014 NIAC Project Selections
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In 2013, NIAC conducted a fourth solicitation, and selected 12 projects for Phase-1 studies and 5 projects to continue on to phase II projects.[20] Projects selected include a study of hibernation for astronauts[21] and a submarine operating on Saturn's moon Titan[22]
2014 Phase I selections were:[23]
- Atchison, Justin: Swarm Flyby Gravimetry
- Boland, Eugene: Mars Ecopoiesis Test Bed
- Cash, Webster: The Aragoscope: Ultra-High Resolution Optics at Low Cost
- Chen, Bin: 3D Photocatalytic Air Processor for Dramatic Reduction of Life Support Mass & Complexity
- Hoyt, Robert: WRANGLER: Capture and De-Spin of Asteroids and Space Debris
- Matthies, Larry: Titan Aerial Daughtercraft
- Miller, Timothy: Using the Hottest Particles in the Universe to Probe Icy Solar System Worlds
- Nosanov, Jeffrey: PERISCOPE: PERIapsis Subsurface Cave OPtical Explorer
- Oleson, Steven: Titan Submarine: Exploring the Depths of Kraken
- Ono, Masahiro: Comet Hitchhiker: Harvesting Kinetic Energy from Small Bodies to Enable Fast and Low-Cost Deep Space Exploration
- Streetman, Brett: Exploration Architecture with Quantum Inertial Gravimetry and In Situ ChipSat Sensors
- Wiegmann, Bruce: Heliopause Electrostatic Rapid Transit System (HERTS)
2015 NIAC Project Selections
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The 2015 Phase-1 projects included a hopping vehicle to visit Triton[24] and others,[25] and seven phase two projects.[26] Phase I projects selected were:[27]
- Engblom, William: Virtual Flight Demonstration of Stratospheric Dual-Aircraft Platform
- Graf, John: Thirsty Walls - A new paradigm for air revitalization in life support
- Hecht, Michael: A Tall Ship and a Star to Steer Her By
- Lewis, John: In-Space Manufacture of Storable Propellants
- Lubin, Philip: Directed Energy Propulsion for Interstellar Exploration (DEEP-IN)
- Oleson, Steven: Triton Hopper: Exploring Neptune's Captured Kuiper Belt Object
- Peck, Mason: Soft-Robotic Rover with Electrodynamic Power Scavenging
- Plescia, Jeffrey: Seismic Exploration of Small Bodies
- Paxton, Larry: CRICKET: Cryogenic Reservoir Inventory by Cost-Effective Kinetically Enhanced Technology
- Sercel, Joel: APIS (Asteroid Provided In-Situ Supplies): 100MT Of Water from a Single Falcon 9
- Stoica, Adrian WindBots: persistent in-situ science explorers for gas giants
- Tabirian, Nelson: Thin-Film Broadband Large Area Imaging System
- Ulmer, Melville: Aperture: A Precise Extremely large Reflective Telescope Using Re-configurable Elements
- Wang, Joseph: CubeSat with Nanostructured Sensing Instrumentation for Planetary Exploration
- Youngquist, Robert: Cryogenic Selective Surfaces
In addition, seven projects were selected for continuation into Phase II:
- Atchison, Justin: Swarm Flyby Gravimetry
- Chen, Bin: 3D Photocatalytic Air Processor for Dramatic Reduction of Life Support Mass and Complexity
- Nosanov, Jeffrey: PERISCOPE: PERIapsis Subsurface Cave Optical Explorer
- Oleson, Steven: Titan Submarine: Exploring the Depths of Kraken Mare
- Paul, Michael: SCEPS in Space - Non-Radioisotope Power Systems for Sunless Solar System Exploration Missions
- Stoica, Adrian: Trans-Formers for Lunar Extreme Environments: Ensuring Long-Term Operations in Regions of Darkness and Low Temperatures
- Wiegmann, Bruce: Heliopause Electrostatic Rapid Transit System (HERTS)
2016 NIAC Project Selections
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Phase I projects selected were:[28]
- Bayandor, Javid: Light Weight Multifunctional Planetary Probe for Extreme Environment Exploration and Locomotion
- Bugga, Ratnakumar: Venus Interior Probe Using In-situ Power and Propulsion (VIP-INSPR)
- Dunn, Jason: Reconstituting Asteroids into Mechanical Automata
- Hughes, Gary: Molecular Composition Analysis of Distant Targets
- Janson, Siegfried: Brane Craft
- Mann, Chris: Stellar Echo Imaging of Exoplanets
- Mueller, Robert: Mars Molniya Orbit Atmospheric Resource Mining
- Ono, Masahiro: Journey to the Center of Icy Moons
- Quadrelli, Marco: E-Glider: Active Electrostatic Flight for Airless Body Exploration
- Rothschild, Lynn: Urban biomining meets printable electronics: end-to-end destination biological recycling and reprinting
- Sauder, Jonathan: Automaton Rover for Extreme Environments (AREE)
- Thomas, Stephanie: Fusion-Enabled Pluto Orbiter and Lander
- VanWoerkom, Michael: NIMPH: Nano Icy Moons Propellant Harvester
In addition, eight projects were selected for continuation into Phase II:
- Bradford, John: Advancing Torpor Inducing Transfer Habitats for Human Stasis to Mars
- Engblom, William: Flight Demonstration of Novel Atmospheric Satellite Concept
- Kirtley, David: Magnetoshell Aerocapture for Manned Missions and Planetary Deep Space Orbiters
- Lubin, Philip: Directed Energy for Interstellar Study
- Rovey, Joshua: Experimental Demonstration and System Analysis for Plasmonic Force Propulsion
- Skelton, Robert: Tensegrity Approaches to In-Space Construction of a 1g Growable Habitat
- Ulmer, Melville: Further Development of Aperture: A Precise Extremely Large Reflective Telescope Using Re-configurable Elements
- Youngquist, Robert: Cryogenic Selective Surfaces
2017 NIAC Project Selections
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The fifteen projects selected for Phase I were:[29]
- Adam Arkin: A Synthetic Biology Architecture to Detoxify and Enrich Mars Soil for Agriculture
- John Brophy: A Breakthrough Propulsion Architecture for Interstellar Precursor Missions
- John-Paul Clarke : Evacuated Airship for Mars Missions
- Heidi Fearn: Mach Effects for In Space Propulsion: Interstellar Mission
- Benjamin Goldman : Pluto Hop, Skip, and Jump Global
- Jason Gruber: Turbolift
- Kevin Kempton : Phobos L1 Operational Tether Experiment (PHLOTE)
- Michael LaPointe: Gradient Field Imploding Liner Fusion Propulsion System
- John Lewis : Massively Expanded NEA Accessibility via Microwave-Sintered Aerobrakes
- Jay McMahon: Dismantling Rubble Pile Asteroids with AoES (Area-of-Effect Soft-bots)
- Raymond Sedwick: Continuous Electrode Inertial Electrostatic Confinement Fusion
- Joel Sercel: Sutter: Breakthrough Telescope Innovation for Asteroid Survey Missions to Start a Gold Rush in Space
- Slava Turyshev: Direct Multipixel Imaging and Spectroscopy of an exoplanet with a Solar Gravity Lens Mission
- Robert Youngquist: Solar Surfing
- Nan Yu: A direct probe of dark energy interactions with a solar system laboratory
In addition, seven projects were selected for continuation into Phase II:
- Ratnakumar Bugga: Venus Interior Probe Using In-situ Power and Propulsion (VIP-INSPR)
- Gary Hughes: Remote Laser Evaporative Molecular Absorption Spectroscopy Sensor System
- Siegfried Janson: Brane Craft Phase II
- Chris Mann: Stellar Echo Imaging of Exoplanets
- Jonathan Sauder: Automaton Rover for Extreme Environments (AREE)
- Joel Sercel: Optical Mining of Asteroids, Moons, and Planets to Enable Sustainable Human Exploration and Space Industrialization
- Stephanie Thomas: Fusion-Enabled Pluto Orbiter and Lander
2018 NIAC Project Selections
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The sixteen projects selected for Phase I were:[30]
- Aliakbar Aghamohammadi: Shapeshifters from Science Fiction to Science Fact: Globetrotting from Titan's Rugged Cliffs to its Deep Seafloors
- David Akin: Biobot: Innovative Offloading of Astronauts for More Effective Exploration
- Jeffrey Balcerski: Lofted Environmental and Atmospheric Venus Sensors (LEAVES)
- Sigrid Close: Meteoroid Impact Detection for Exploration of Asteroids (MIDEA)
- Christine Hartzell: On-Orbit, Collision-Free Mapping of Small Orbital Debris
- Chang-kwon Kang: Marsbee - Swarm of Flapping Wing Flyers for Enhanced Mars Exploration
- John Kendra: Rotary Motion Extended Array Synthesis (R-MXAS)
- Chris Limbach: PROCSIMA: Diffractionless Beamed Propulsion for Breakthrough Interstellar Missions
- Gareth Meirion-Griffith: SPARROW: Steam Propelled Autonomous Retrieval Robot for Ocean Worlds
- Hari Nayar: BALLET: BALloon Locomotion for Extreme Terrain
- Lynn Rothschild: Myco-architecture off planet: growing surface structures at destination
- Dmitry Savransky: Modular Active Self-Assembling Space Telescope Swarms
- Nickolas Solomey: Astrophysics and Technical Study of a Solar Neutrino Spacecraft
- Grover Swartzlander: Advanced Diffractive MetaFilm Sailcraft
- Jordan Wachs: Spectrally-Resolved Synthetic Imaging Interferometer
- Ryan Weed: Radioisotope Positron Propulsion
In addition, nine projects were selected for continuation into Phase II:
- Robert Adams: Pulsed Fission-Fusion (PuFF) Propulsion Concept
- John Brophy: A Breakthrough Propulsion Architecture for Interstellar Precursor Missions
- Devon Crowe: Kilometer Space Telescope (KST)
- Jay McMahon: Dismantling Rubble Pile Asteroids with AoES (Area-of-Effect Soft-bots)
- Steven Oleson: Triton Hopper: Exploring Neptune's Captured Kuiper Belt Object
- John Slough: Spacecraft Scale Magnetospheric Protection from Galactic Cosmic Radiation
- Slava Turyshev: Direct Multipixel Imaging and Spectroscopy of an Exoplanet with a Solar Gravity Lens Mission
- Michael VanWoerkom: NIMPH: Nano Icy Moons Propellant Harvester
- James Woodward: Mach Effect for In Space Propulsion: Interstellar Mission
2019 NIAC Project Selections
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The twelve projects selected for Phase I were:[31]
- Javid Bayandor: BREEZE- Bioinspired Ray for Extreme Environments and Zonal Exploration
- Erik Brandon: Power Beaming for Long Life Venus Surface Missions
- Ana Diaz Artiles: SmartSuit: A Hybrid, Intelligent, and Highly Mobile EVA Spacesuit for Next Generation Exploration Missions
- Tom Ditto: Dual Use Exoplanet Telescope (DUET)
- Yu Gu: Micro-Probes Propelled and Powered by Planetary Atmospheric Electricity (MP4AE)
- Troy Howe: SPEAR Probe - An Ultra Lightweight Nuclear Electric Propulsion Probe for Deep Space Exploration
- Noam Izenberg: RIPS: Ripcord Innovative Power System
- Geoffrey Landis: Power for Interstellar Fly-by
- Joel Sercel: Lunar-Polar Propellant Mining Outpost (LPMO): Affordable Exploration and Industrialization
- John Slough: Crosscutting High Apogee Refueling Orbital Navigator (CHARON) for Active Debris Removal
- George Sowers: Thermal Mining of Ices on Cold Solar System Bodies
- Robert Staehle: Low-Cost SmallSats to Explore to Our Solar System's Boundaries
In addition, six projects were selected for continuation into Phase II:
- Tom Ditto: The High Étendue Multiple Object Spectrographic Telescope (THE MOST)
- John Kendra: Rotary-Motion-Extended Array Synthesis (R-MXAS)
- Chris Limbach: Self-Guided Beamed Propulsion for Breakthrough Interstellar Missions
- Nickolas Solomey: Astrophysics and Technical Lab Studies of a Solar Neutrino Spacecraft Detector
- Grover Swartzlander: Diffractive Lightsails
- Doug Willard: Solar Surfing
Also, two projects were selected for Phase III:
- William Whittaker: Robotic Technologies Enabling the Exploration of Lunar Pits
- Joel Sercel: Mini Bee Prototype to Demonstrate the Apis Mission Architecture and Optical Mining Technology
2020 NIAC Project Selections
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The sixteen projects selected for Phase I were:[32]
- Saptarshi Bandyopadhyay: LCRT - Lunar Crater Radio Telescope on the Far-Side of the Moon
- John Christian: StarNAV: An Architecture for Autonomous Spacecraft Navigation by the Relativistic Perturbation of Starlight
- Artur Davoyan: Extreme Metamaterial Solar Sails for Breakthrough Space Exploration
- Caroline Genzale: Fueling a Human Mission to Mars
- Davide Guzzetti: Flat Fabrication of Progressively Self-Assembling Space Systems
- Benjamin Hockman: Gravity Poppers: Hopping Probes for the Interior Mapping of Small Solar System Bodies
- Steven Howe: Pulsed Plasma Rocket: Shielded, Fast Transits for Humans to Mars
- Troy Howe: High Irradiance Peltier Operated Tungsten Exo-Reflector (HI-POWER)
- Gerald Jackson: Deceleration of Interstellar Spacecraft Utilizing Antimatter
- Matthew Kuhns: Instant Landing Pads for Artemis Lunar Missions
- Richard Linares: Dynamic Orbital Slingshot for Rendezvous with Interstellar Objects
- Philip Metzger: Aqua Factorem: Ultra Low-Energy Lunar Water Extraction
- Robert Moses: Advanced Aerocapture System for Enabling Faster-Larger Planetary Science & Human Exploration Missions
- Eldar Noe Dobrea: Heat Exchange-Driven Aircraft for Low Altitude and Surface Exploration of Venus
- Robert Romanofsky: Magneto-Inductive Communications for Ocean Worlds
- Lynn Rothschild: An Astropharmacy
In addition, six projects were selected for continuation into Phase II:
- David Akin: Innovative Offloading of Astronauts for More Effective Exploration
- Javid Bayandor: Lightweight Multifunctional Planetary Probe for Extreme Environment Exploration and Locomotion
- Troy Howe: SPEAR Probe - An Ultra Lightweight Nuclear Electric Propulsion Probe for Deep Space Exploration
- Masahiro Ono: Enceladus Vent Explorer
- Joel Sercel: Lunar Polar Propellant Mining Outpost (LPMO): A Breakthrough for Lunar Exploration & Industry
- Nan Yu: Gravity Observation and Dark Energy Detection Explorer in the Solar System
Also, one project was selected for continuation into Phase III:
2021 NIAC Project Selections
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The sixteen projects selected for Phase I were:[33]
- Sarbajit Banerjee: Regolith Adaptive Modification System (RAMs) to Support Early Extraterrestrial Planetary Landings (and Operations)
- Sigrid Close: Exploring Uranus through SCATTER: Sustained ChipSat/CubeSat Activity Through Transmitted Electromagnetic Radiation
- Amelia Greig: Ablative Arc Mining for In-Situ Resource Utilization
- Zachary Manchester: Kilometer-Scale Space Structures from a Single Launch
- Patrick McGarey: PEDALS: Passively Expanding Dipole Array for Lunar Sounding
- Quinn Morley: Autonomous Robotic Demonstrator for Deep Drilling (ARD3)
- Christopher Morrison: Extrasolar Object Interceptor and Sample Return Enabled by Compact, Ultra Power Dense Radioisotope Batteries
- E. Joseph Nemanick: Atomic Planar Power for Lightweight Exploration (APPLE)
- Steven Oleson: A Titan Sample Return Using In-Situ Propellants
- Marco Pavone: ReachBot: Small Robot for Large Mobile Manipulation Tasks in Martian Cave Environments
- Ronald Polidan: FarView – An In Situ Manufactured Lunar Far Side Radio Observatory
- Ethan Schaler: FLOAT — Flexible Levitation on a Track
- Ethan Schaler: SWIM — Sensing with Independent Micro-swimmers
- Jane Shevtsov: Making Soil for Space Habitats by Seeding Asteroids with Fungi
- Charles Taylor: Light Bender
- Joshua Vander Hook: Solar System Pony Express
In addition, six projects were selected for continuation into Phase II:
- Saptarshi Bandyopadhyay: LCRT - Lunar Crater Radio Telescope on the Far-Side of the Moon
- Lynn Rothschild: Mycotecture Off Planet
- Kerry Nock: Pluto Hop, Skip, and Jump
- Artur Davoyan: Extreme Solar Sailing for Breakthrough Space Exploration
- Jeffrey Balcerski: Lofted Environmental Venus Sensors (LEAVES)
- Peter Gural: Sutter Ultra: Breakthrough Space Telescope for Prospecting Asteroids
Also, one project was selected for continuation into Phase III:
- Nickolas Solomey: Cube-Sat Space Flight Test of a Neutrino Detector
2022 NIAC Project Selections
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The twelve projects selected for Phase I were:[34]
- Darmindra Arumugam: Cryospheric Rydberg Radar
- Steven Barrett: Silent, Solid-State Propulsion for Advanced Air Mobility Vehicles
- Jason Benkoski: Combined Heat Shield and Solar Thermal Propulsion System for an Oberth Manuever
- Elena D’Onghia: CREW HaT: Cosmic Radiation Extended Warding using the Halbach Torus
- Bonnie Dunbar: The Spacesuit Digital Thread: 4.0 Manufacture of Custom High Performance Spacesuits for the Exploration of Mars
- Ivan Ermanoski: Breathing Mars Air: Stationary and Portable O2 Generation
- Philip Lubin: Pi – Terminal Defense for Humanity
- John Mather: Hybrid Observatory for Earth-like Exoplanets (HOEE)
- Marcin Pilinski: In-situ Neutral-Optics Velocity Analyzer for Thermospheric Exploration (INOVATE)
- Jonathan Sauder: Starburst: A Revolutionary Under-Constrained Adaptable Deployable Structure Architecture
- Sara Seager: Venus Atmosphere and Cloud Particle Sample Return for Astrobiology
- Mahmooda Sultana: SCOPE: ScienceCraft for Outer Planet Exploration
In addition, five projects were selected for continuation into Phase II:
- Javid Bayandor: BREEZE- Bioinspired Ray for Extreme Environments and Zonal Exploration
- Zac Manchester: Kilometer-Scale Space Structures from a Single Launch
- E Nemanick: Atomic Planar Power for Lightweight Exploration (APPLE)
- Marco Pavone: ReachBot: Small Robot for Large Mobile Manipulation Tasks in Martian Cave Environments
- Ethan Schaler: SWIM- Sensing with Independent Micro-swimmers
Also, one project was selected for continuation into Phase III:
- Amber Dubill: Diffractive Solar Sailing
2023 NIAC Project Selections
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The fourteen projects selected for Phase I were:[35]
- Edward Balaban: Fluidic Telescope (FLUTE): Enabling the Next Generation of Large Space Observatories
- Igor Bargatin: Photophoretic Propulsion Enabling Mesosphere Exploration
- Theresa Benyo: Accessing Icy World Oceans Using Lattice Confinement Fusion Fast Fission
- Zachary Cordero: Bend-Forming of Large Electrostatically Actuated Space Structures
- Peter Curreri: Lunar South Pole Oxygen Pipeline
- Artur Davoyan: Pellet-Beam Propulsion for Breakthrough Space Exploration
- Ryan Gosse: New Class of Bimodal NTP/NEP with a Wave Rotor Topping Cycle Enabling Fast Transit to Mars
- Congrui Jin: Biomineralization-Enabled Self-Growing Building Blocks for Habitat Outfitting on Mars
- Mary Knapp: Great Observatory for Long Wavelengths (GO-LoW)
- Quinn Morley: TitanAir: Leading-Edge Liquid Collection to Enable Cutting-Edge Science
- Christopher Morrison: EmberCore Flashlight: Long Distance Lunar Characterization with Intense Passive X- and Gamma-ray Source
- Heidi Newberg: Diffractive Interfero Coronagraph Exoplanet Resolver (DICER): Detecting and Characterizing All Earth-Like Exoplanets Orbiting Sun-Like Stars Within 10 pc
- Stephen Polly: Radioisotope Thermoradiative Cell Power Generator
- Ryan Weed: Aerogel Core Fission Fragment Rocket Engine
In addition, six projects were selected for continuation into Phase II:
- Darmindra Arumugam: Quantum Rydberg Radar for Surface, Topography, and Vegetation
- Steven Barrett: Silent, Solid-State Propulsion for Advanced Air Mobility Vehicles
- Philip Lubin: PI – Planetary Defense
- Christopher Morrison: The Nyx Mission to Observe the Universe from Deep Space – Enabled by EmberCore, a High Specific Power RadioisotopeElectric Propulsion System
- Ronald Polidan: FarView Observatory – A Large, In-Situ Manufactured, Lunar Far Side Radio Array
- Lynn Rothschild: A Flexible, Personalized, On-Demand Astropharmacy
No projects were selected for continuation into Phase III.
2024 NIAC Project Selections
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The thirteen projects selected for Phase I were:[36]
- Matthew McQuinn: Solar System-Scale VLBI to Dramatically Improve Cosmological Distance Measurements
- Kenneth Carpenter: A Lunar Long-Baseline Optical Imaging Interferometer: Artemis-enabled Stellar Imager (AeSI)
- Alvaro Romero-Calvo: Magnetohydrodynamic Drive for Hydrogen and Oxygen Production in Mars Transfer
- James Bickford: Thin Film Isotope Nuclear Engine Rocket (TFINER)
- Ge-Cheng Zha: Mars Aerial and Ground Global Intelligent Explorer (MAGGIE)
- Steven Benner: Add-on to Large-scale Water Mining Operations on Mars to Screen for Introduced and Alien Life
- Lynn Rothschild: Detoxifying Mars: The Biocatalytic Elimination of Omnipresent Perchlorates
- Thomas Eubanks: Swarming Proxima Centauri: Coherent Picospacecraft Swarms Over Interstellar Distances
- Beijia Zhang: LIFA: Lightweight Fiber-based Antenna for Small Sat-Compatible Radiometry
- Ryan Sprenger: A Revolutionary Approach to Interplanetary Space Travel: Studying Torpor in Animals for Space-health in Humans (STASH)
- Geoffrey Landis: Sample Return from the Surface of Venus
- Peter Cabauy: Autonomous Tritium Micropowered Sensors
- Aaswath Pattabhi Raman: Electro-luminescently Cooled Zero-boil-off Propellant Depots Enabling Crewed Exploration of Mars