E. Stoffels scite author profile

A non-thermal plasma source ('plasma needle') generated under atmospheric pressure by means of radio-frequency excitation has been characterized. Plasma appears as a small (sub-mm) glow at the tip of a metal pin. It operates in helium, argon, nitrogen and mixtures of He with air. Electrical measurements show that plasma needle operates at relatively low voltages (200-500 V peak-to-peak) and the power consumption ranges from tens of milliwatts to at most a few watts. Electron-excitation, vibrational and rotational temperatures have been determined using optical emission spectroscopy. Excitation and vibration temperatures are close to each other, in the range 0.2-0.3 eV, rotational gas temperature is at most a few hundred K. At lowest power input the source has the highest excitation temperature while the gas remains at room temperature. We have demonstrated the non-aggressive nature of the plasma: it can be applied on organic materials, also in watery environment, without causing thermal/electric damage to the surface. Plasma needle will be used in the study of plasma interactions with living cells and tissues. At later stages, this research aims at performing fine, high-precision plasma surgery, like removal of (cancer) cells or cleaning of dental cavities.

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Cold Atmospheric Plasma: Charged Species and Their Interactions With Cells and Tissues

Stoffels

Sakiyama

Graves

2008

IEEE Trans. Plasma Sci.

493

348

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Plasma needle forin vivomedical treatment: recent developments and perspectives

Stoffels

Kieft

Sladek

et al. 2006

Plasma Sources Sci. Technol.

296

200

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In this paper we describe the hitherto unravelled facts on the interactions of a cold atmospheric plasma with living cells and tissues. A specially designed source, plasma needle, is a low-power discharge, which operates under the threshold of tissue damage. When applied properly, the needle does not cause fatal cell injury which would result in cell death (necrosis). Instead, it allows precise and localized cell removal by means of the so-called cell detachment. In addition, plasma can be used for bacterial disinfection. Because of mild treatment conditions, plasma disinfection can be performed in vivo, e.g. on wounds and dental cavities. Presently, one strives to obtain a better control of the operating device. Therefore, plasma has been characterized using a variety of diagnostics, and a smart system has been designed for the positioning of the device with respect to the treated surface.

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Negative ions in a radio-frequency oxygen plasma

et al. 1995

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Plasma Treatment of Dental Cavities: A Feasibility Study

Sladek

Stoffels

Walraven

et al. 2004

IEEE Trans. Plasma Sci.

237

146

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E. Stoffels

Plasma needle: a non-destructive atmospheric plasma source for fine surface treatment of (bio)materials

Cold Atmospheric Plasma: Charged Species and Their Interactions With Cells and Tissues

Plasma needle forin vivomedical treatment: recent developments and perspectives

Negative ions in a radio-frequency oxygen plasma

Plasma Treatment of Dental Cavities: A Feasibility Study

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