Microfabricated electrospray emitter arrays with integrated extractor and accelerator electrodes for the propulsion of small spacecraft

Dandavino, Simon; Ataman, Çağlar; Ryan, Charles; Chakraborty, Subha; Courtney, Daniel G.; Stark, John; Shea, Herbert

doi:10.1088/0960-1317/24/7/075011

Cited by 65 publications

(55 citation statements)

References 31 publications

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“…capillaries [3,4,25,26], silicon tips roughened through etches or CNT growth [1,17], electrochemical etching of porous metals [16,27], use of Rosensweig instabilities in ionic liquid ferrofluids [28] and laser ablation of porous glass [5]. Arrays of externally wetted [17] and porous [2,5] ILIS have, encouragingly, been demonstrated to support a few hundred μA per cm 2 of highly ionic emissions.…”

Section: Electrospray Source Descriptionmentioning

confidence: 99%

“…First, compared with precise silicon microfabrication [26], the tendency for porous emitters to achieve high and ionic currents is particularly remarkable considering the relative imprecision and range in apex radii typical of processes which have successfully been applied (eg. few to 10's of μm in [27]).…”

Section: Electrospray Source Descriptionmentioning

confidence: 99%

“…Low polydispersive efficiencies (<50%) can result from only a few percent of large droplets within an otherwise ionic beam [40]; greatly penalizing the power efficiency when targeting a high specific impulse through the PIR. This relatively severe loss mechanism has led to significant focus on achieving the PIR [26,41], or more recently and with promising results, obtaining extremely small (∼ few kDa) monodisperse droplet beams [20]. In this regard, ILISs which achieve the PIR through externally wetted [7] or porous [16] electrospray emitters are a promising avenue for high efficiency, high specific impulse devices.…”

Section: Indirect Performance Calculationsmentioning

confidence: 99%

“…However, relative to the apex radius, these asymmetries lie far from the anticipated emission site loci and the influence is not expected to be large. Generally, these inconsistencies in fabrication may be regarded as a clear shortfall when compared with the precision achievable from silicon microfabrication [17,21,26]; however, the tip curvature ranges are comparable with other porous sources [5,16,27].…”

Section: Fabrication Processmentioning

confidence: 99%

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Comparing Direct and Indirect Thrust Measurements from Passively Fed Ionic Electrospray Thrusters

Courtney

Dandavino

Shea

2016

Journal of Propulsion and Power

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Highly ionic beams of several hundred μA per cm 2 have been measured from porous glass ionic liquid electrospray sources fabricated using a conventional mill. The thrust output from three prototype devices, two emitting the ionic liquid EMI-Im and one emitting EMI-BF 4, was measured directly using a precise balance. Thrusts up to 50 μN were measured when emitting EMI-Im in a bipolar, alternating potential configuration at less than 0.8 W input power and with propellant supplied from an internal reservoir. Measurements of mass spectra via Time of Flight spectrometry, angle resolved current distributions, ion fragmentation and energy deficits have been applied to accurately calculate thrust and mass flow rates indirectly from the same devices. For two of three cases, calculated and directly measured thrusts were in agreement to within a few μN at input powers from 0.1 W to 0.8 W . Emissions of EMI-BF4 are shown to yield nearly purely ionic beams supporting high propulsive efficiencies and specific impulses, ∼ 65 % and > 3200 s respectively at 0.5 W . Conversely, greater polydispersity was observed in EMI-Im emissions, contributing to reduced specific performance, ∼ 50 % propulsive efficiency and ∼ 1500 s specific impulse at 0.5 W .

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Section: Electrospray Source Descriptionmentioning

confidence: 99%

Section: Electrospray Source Descriptionmentioning

confidence: 99%

Section: Indirect Performance Calculationsmentioning

confidence: 99%

Section: Fabrication Processmentioning

confidence: 99%

See 2 more Smart Citations

Comparing Direct and Indirect Thrust Measurements from Passively Fed Ionic Electrospray Thrusters

Courtney

Dandavino

Shea

2016

Journal of Propulsion and Power

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“…1,2 Several miniature thruster technologies, such as, cold-gas thrusters, 1,3 electrospray propulsion using liquid metals 4 or ionic liquids, [5][6][7][8][9][10][11] micro resisojets, 12,13 and micro pulsed plasma thrusters 13 are under investigation as prospective candidates targeting stable thrusts in the range of a few µN to several hundred µN. Several thrust-stands have been reported over the last few years for measuring thrust from these microthrusters with sub-µN resolutions.…”

Section: Introductionmentioning

confidence: 99%

A 10 nN resolution thrust-stand for micro-propulsion devices

Chakraborty

Courtney

Shea

2015

Review of Scientific Instruments

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We report on the development of a nano-Newton thrust-stand that can measure up to 100 µN thrust from different types of microthrusters with 10 nN resolution. The compact thrust-stand measures the impingement force of the particles emitted from a microthruster onto a suspended plate of size 45 mm × 45 mm and with a natural frequency over 50 Hz. Using a homodyne (lock-in) readout provides strong immunity to facility vibrations, which historically has been a major challenge for nano-Newton thrust-stands. A cold-gas thruster generating up to 50 µN thrust in air was first used to validate the thrust-stand. Better than 10 nN resolution and a minimum detectable thrust of 10 nN were achieved. Thrust from a miniature electrospray propulsion system generating up to 3 µN of thrust was measured with our thrust-stand in vacuum, and the thrust was compared with that computed from beam diagnostics, obtaining agreement within 50 nN to 150 nN. The 10 nN resolution obtained from this thrust-stand matches that from state-of-the-art nano-Newton thrust-stands, which measure thrust directly from the thruster by mounting it on a moving arm (but whose natural frequency is well below 1 Hz). The thrust-stand is the first of its kind to demonstrate less than 3 µN resolution by measuring the impingement force, making it capable of measuring thrust from different types of microthrusters, with the potential of easy upscaling for thrust measurement at much higher levels, simply by replacing the force sensor with other force sensors. C 2015 AIP Publishing LLC. [http://dx

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On‐Demand Ambient Ionization of Picoliter Samples Using Charge Pulses

Hollerbach

Luo

et al. 2015

Angew Chem Int Ed

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Relay electrospray ionization (rESI) from a capillary containing a sample solution (or from an array of such capillaries) is triggered by charge deposition onto the capillary. Suitable sources of primary ions, besides electrosprays, are plasma ion and piezoelectric discharge plasma sources. With no requirement for physical contact, high-throughput sample screening is enabled by rapidly addressing individual secondary (sample) capillaries. Sub-pL sample volumes can be loaded and sprayed. Polar analytes, including neurotransmitters, phosphopeptides, oligonucleotides, illicit drugs, and pharmaceutical compounds are successfully ionized by rESI with concentration sensitivities (0.1 ppb for acetylcholine) which are similar to nanoESI but absolute sensitivities are orders of magnitude better. Nonpolar analytes (steroids, alkynes) are ionized by rESI using an open-tube secondary capillary and injecting electrolytically generated metal cations from the primary electrospray.

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Microfabricated electrospray emitter arrays with integrated extractor and accelerator electrodes for the propulsion of small spacecraft

Cited by 65 publications

References 31 publications

Comparing Direct and Indirect Thrust Measurements from Passively Fed Ionic Electrospray Thrusters

Comparing Direct and Indirect Thrust Measurements from Passively Fed Ionic Electrospray Thrusters

A 10 nN resolution thrust-stand for micro-propulsion devices

On‐Demand Ambient Ionization of Picoliter Samples Using Charge Pulses

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