{"help":"Return the metadata of a dataset (package) and its resources. :param id: the id or name of the dataset :type id: string","success":true,"result":[{"id":"bbe7bb2b-1a29-4b9c-a9d3-7cc773785bb6","name":"safety-and-efficiency-evaluation-innovative-plasma-jet-array-argon-gas-switching-technology","title":"Safety and efficiency evaluation of an innovative plasma jet array in argon by gas switching technology","author":"DO NOT USE","author_email":"gerling@inp-greifswald.de","maintainer":"INPTDAT \u2013 The Data Platform for Plasma Technology","maintainer_email":"wissenschafts-it@inp-greifswald.de","license_title":"https:\/\/creativecommons.org\/licenses\/by\/4.0\/","notes":"\u003Cp\u003EWound healing is an important and still challenging task in modern medicine. In particular, the therapeutic options of treating chronic wounds linked to diseases like diabetes are limited. One promising approach is the application of cold atmospheric plasma (CAP) via medical plasma jets or dielectric barrier discharges to specifically stimulate the healing process of non-healing wounds. However, limitations occur regarding the treatment area in case of plasma jets. Thus, an innovative plasma jet array system (PJAS) was developed to extend the capabilities of established plasma jets in treating large chronic wounds. Utilizing a patented gas switching technology, the PJAS aims to provide an effective treatment over larger areas within shorter application times. The determination of performance and safety indicators included measurements of leakage current, temperature, OES and reactive species output. Values are compared with a medical plasma jet (PJ) system, the kINPen\u00ae MED. Findings indicated that the plasma jet array system showed enhanced efficacy compared to present medical plasma jets. Systematic analyses of leakage current, neutral gas temperature, and emission spectra confirmed the device\u0027s safety. A two-step observation was found in the effluent temperature profile of the PJAS with a possible relation to free jet physics and the argon enriched zones.\u003C\/p\u003E\n","url":"https:\/\/www.inptdat.de\/dataset\/safety-and-efficiency-evaluation-innovative-plasma-jet-array-argon-gas-switching-technology","state":"Active","log_message":"Update to resource Safety and efficiency evaluation of an innovative plasma jet array in argon by gas switching technology - PLC PJAS device II-2 (Fig. 6a)","private":true,"revision_timestamp":"Thu, 09\/11\/2025 - 23:14","metadata_created":"Thu, 09\/11\/2025 - 00:00","metadata_modified":"Thu, 09\/11\/2025 - 23:14","creator_user_id":"0e27023c-5517-4b3f-b96e-c939dc6a74ff","type":"Dataset","resources":[{"id":"da2f9b31-c7e8-42ce-94cc-1b67afd6406f","revision_id":"","url":"https:\/\/www.inptdat.de\/system\/files\/node876_PJAS_fig4a_T_CH1.csv","description":"\u003Cp\u003EData table containing the temperatures measured for the kINPen Multijet channel 1 with fiber-optical temperature (FOT) probe moving a distance of 0 to 15 mm measured from the channel outlet. Data for gas flow rates of 2.5 slm, 3 slm, 4 slm, 5 slm, and 6 slm are included.\u003C\/p\u003E\n","format":"csv","state":"Active","revision_timestamp":"Thu, 09\/11\/2025 - 23:14","name":"Safety and efficiency evaluation of an innovative plasma jet array in argon by gas switching technology - TEMP PJAS CH1 (Fig. 4a)","mimetype":"text\/csv","size":"12.97 KB","created":"Mon, 06\/23\/2025 - 16:15","resource_group_id":"8213480c-adb6-4936-8811-f1dd8f8b3a2f","last_modified":"Date changed  Thu, 09\/11\/2025 - 23:14"},{"id":"dffa5b5a-a1e6-4f9a-9e54-7d9e4e090d5b","revision_id":"","url":"https:\/\/www.inptdat.de\/system\/files\/node876_PJAS_fig4a_T_CH2.csv","description":"\u003Cp\u003EData table containing the temperatures measured for the kINPen Multijet channel 2 with fiber-optical temperature (FOT) probe moving a distance of 0 to 15 mm measured from the channel outlet. Data for gas flow rates of 2.5 slm, 3 slm, 4 slm, 5 slm, and 6 slm are included.\u003C\/p\u003E\n","format":"csv","state":"Active","revision_timestamp":"Thu, 09\/11\/2025 - 23:14","name":"Safety and efficiency evaluation of an innovative plasma jet array in argon by gas switching technology - TEMP PJAS CH2 (Fig. 4a)","mimetype":"text\/csv","size":"13.01 KB","created":"Mon, 06\/23\/2025 - 16:16","resource_group_id":"8213480c-adb6-4936-8811-f1dd8f8b3a2f","last_modified":"Date changed  Thu, 09\/11\/2025 - 23:14"},{"id":"31e212ff-b635-407a-9c59-44d11904fb8c","revision_id":"","url":"https:\/\/www.inptdat.de\/system\/files\/node876_PJAS_fig4a_T_CH3.csv","description":"\u003Cp\u003EData table containing the temperatures measured for the kINPen Multijet channel 3 with fiber-optical temperature (FOT) probe moving a distance of 0 to 15 mm measured from the channel outlet. Data for gas flow rates of 2.5 slm, 3 slm, 4 slm, 5 slm, and 6 slm are included.\u003C\/p\u003E\n","format":"csv","state":"Active","revision_timestamp":"Thu, 09\/11\/2025 - 23:14","name":"Safety and efficiency evaluation of an innovative plasma jet array in argon by gas switching technology - TEMP PJAS CH3 (Fig. 4a)","mimetype":"text\/csv","size":"12.97 KB","created":"Mon, 06\/23\/2025 - 16:16","resource_group_id":"8213480c-adb6-4936-8811-f1dd8f8b3a2f","last_modified":"Date changed  Thu, 09\/11\/2025 - 23:14"},{"id":"0f698b94-8560-4dc1-beda-0e2a571589f4","revision_id":"","url":"https:\/\/www.inptdat.de\/system\/files\/node876_PJAS_fig4a_T_CH4.csv","description":"\u003Cp\u003EData table containing the temperatures measured for the kINPen Multijet channel 4 with fiber-optical temperature (FOT) probe moving a distance of 0 to 15 mm measured from the channel outlet. Data for gas flow rates of 2.5 slm, 3 slm, 4 slm, 5 slm, and 6 slm are included.\u003C\/p\u003E\n","format":"csv","state":"Active","revision_timestamp":"Thu, 09\/11\/2025 - 23:14","name":"Safety and efficiency evaluation of an innovative plasma jet array in argon by gas switching technology - TEMP PJAS CH4 (Fig. 4a)","mimetype":"text\/csv","size":"12.95 KB","created":"Mon, 06\/23\/2025 - 16:18","resource_group_id":"8213480c-adb6-4936-8811-f1dd8f8b3a2f","last_modified":"Date changed  Thu, 09\/11\/2025 - 23:14"},{"id":"32e16f0a-0dd6-4916-86eb-f9c88d2c9230","revision_id":"","url":"https:\/\/www.inptdat.de\/system\/files\/node876_PJ_fig4c-T.csv","description":"\u003Cp\u003EData table containing the temperatures measured for the kINPen with fiber-optical temperature (FOT) probe moving a distance of 0 to 30 mm measured from the outlet. T_away refers to the case where the FOT probe is moving constantly away the capillary orifice. T_toward refers to the case where the FOT probe is moving constantly toward the capillary orifice.\u003C\/p\u003E\n","format":"csv","state":"Active","revision_timestamp":"Thu, 09\/11\/2025 - 23:14","name":"Safety and efficiency evaluation of an innovative plasma jet array in argon by gas switching technology - TEMP PJ (Fig. 4c)","mimetype":"text\/csv","size":"20.74 KB","created":"Mon, 06\/23\/2025 - 16:14","resource_group_id":"8213480c-adb6-4936-8811-f1dd8f8b3a2f","last_modified":"Date changed  Thu, 09\/11\/2025 - 23:14"},{"id":"0a9b4ac1-9edb-4bd6-ad00-4a2a83305169","revision_id":"","url":"https:\/\/www.inptdat.de\/system\/files\/node876_PJAS_fig5a_T_map.csv","description":"\u003Cp\u003EData table containing the temperatures measured for the plasma jet array system (PJAS) device I-1 with fiber-optical temperature (FOT) probe moving a distance of 0 to 50 mm measured from the channel outlet at 2.5 slm.\u003Cbr \/\u003E\nDevice I-1 contains a homemade integrated circuit for the gas switching technology and the high voltage circuit receiving 66 V DC voltage from the base unit. Device I-1 is operated gas setting 1, which consists of a fixed value (8ms) flushing per channel, resulting in a programming delay of 8.2 to 8.3 ms for physical measurements.\u003C\/p\u003E\n","format":"csv","state":"Active","revision_timestamp":"Thu, 09\/11\/2025 - 23:14","name":"Safety and efficiency evaluation of an innovative plasma jet array in argon by gas switching technology - Neutral gas temperature with FOT PJAS device I-1 2.5 slm (Fig. 5a)","mimetype":"text\/csv","size":"41.73 KB","created":"Wed, 08\/20\/2025 - 15:14","resource_group_id":"8213480c-adb6-4936-8811-f1dd8f8b3a2f","last_modified":"Date changed  Thu, 09\/11\/2025 - 23:14"},{"id":"bc098676-60d9-496a-9afd-d776797dd9ed","revision_id":"","url":"https:\/\/www.inptdat.de\/system\/files\/node876_PJAS_fig5b_T_map.csv","description":"\u003Cp\u003EData table containing the temperatures measured for the plasma jet array system (PJAS) device I-1 with fiber-optical temperature (FOT) probe moving a distance of 0 to 50 mm measured from the channel outlet at 5 slm.\u003Cbr \/\u003E\nDevice I-1 contains a homemade integrated circuit for the gas switching technology and the high voltage circuit receiving 66 V DC voltage from the base unit. Device I-1 is operated gas setting 1, which consists of a fixed value (8ms) flushing per channel, resulting in a programming delay of 8.2 to 8.3 ms for physical measurements.\u003C\/p\u003E\n","format":"csv","state":"Active","revision_timestamp":"Thu, 09\/11\/2025 - 23:14","name":"Safety and efficiency evaluation of an innovative plasma jet array in argon by gas switching technology - Neutral gas temperature with FOT PJAS device I-1 5 slm (Fig. 5b)","mimetype":"text\/csv","size":"41.7 KB","created":"Wed, 08\/20\/2025 - 15:16","resource_group_id":"8213480c-adb6-4936-8811-f1dd8f8b3a2f","last_modified":"Date changed  Thu, 09\/11\/2025 - 23:14"},{"id":"f056bf56-cfc8-4188-89b2-9b59801194d1","revision_id":"","url":"https:\/\/www.inptdat.de\/system\/files\/node876_PJAS_fig6a_PLC_devI-1.csv","description":"\u003Cp\u003EData table containing the patient leakage current (PLC) measurement data for the plasma jet array system (PJAS) device I-1 at 2.5 and 5 slm individually  as a function of the distance from the outlet.\u003Cbr \/\u003E\nDevice I-1 contains a homemade integrated circuit for the gas switching technology and the high voltage circuit receiving 66 V DC voltage from the base unit. Device I-1 is operated gas setting 1, which consists of a fixed value (8ms) flushing per channel, resulting in a programming delay of 8.2 to 8.3 ms for physical measurements.\u003C\/p\u003E\n","format":"csv","state":"Active","revision_timestamp":"Thu, 09\/11\/2025 - 23:14","name":"Safety and efficiency evaluation of an innovative plasma jet array in argon by gas switching technology - PLC PJAS device I-1 (Fig. 6a)","mimetype":"text\/csv","size":"6.46 KB","created":"Mon, 06\/23\/2025 - 16:10","resource_group_id":"8213480c-adb6-4936-8811-f1dd8f8b3a2f","last_modified":"Date changed  Thu, 09\/11\/2025 - 23:14"},{"id":"cb5d1a06-1f96-46ab-9b7b-e9d81e5093df","revision_id":"","url":"https:\/\/www.inptdat.de\/system\/files\/node876_PJAS_fig6a_PLC_devI-2.csv","description":"\u003Cp\u003EData table containing the patient leakage current (PLC) measurement data for the plasma jet array system (PJAS) device I-2 at 2.5 and 5 slm individually as a function of the distance from the outlet.\u003Cbr \/\u003E\nDevice I-2 contains a homemade integrated circuit for the gas switching technology and the high voltage circuit receiving 66 V DC voltage from the base unit. Device I-2 is operated gas setting 2, which consists of a 30 ms valve opening and 2 ms delay before consecutive next valve opening.\u003C\/p\u003E\n","format":"csv","state":"Active","revision_timestamp":"Thu, 09\/11\/2025 - 23:14","name":"Safety and efficiency evaluation of an innovative plasma jet array in argon by gas switching technology - PLC PJAS device I-2 (Fig. 6a)","mimetype":"text\/csv","size":"489 bytes","created":"Mon, 06\/23\/2025 - 16:11","resource_group_id":"8213480c-adb6-4936-8811-f1dd8f8b3a2f","last_modified":"Date changed  Thu, 09\/11\/2025 - 23:14"},{"id":"874863b4-4a00-4ac3-8f55-657191dbc318","revision_id":"","url":"https:\/\/www.inptdat.de\/system\/files\/node876_PJAS_fig6a_PLC_devII-2.csv","description":"\u003Cp\u003EData table containing the patient leakage current (PLC) measurement data for the plasma jet array system (PJAS) device II-2 at 5 slm  as a function of the distance from the outlet.\u003Cbr \/\u003E\nDevice II-2 contains a homemade discrete circuitry for the gas switching technology and the high voltage circuit receiving 60 V DC voltage from the base unit. Device II-2 is operated gas setting 2, which consists of a 30 ms valve opening and 2 ms delay before consecutive next valve opening.\u003C\/p\u003E\n","format":"csv","state":"Active","revision_timestamp":"Thu, 09\/11\/2025 - 23:14","name":"Safety and efficiency evaluation of an innovative plasma jet array in argon by gas switching technology - PLC PJAS device II-2 (Fig. 6a)","mimetype":"text\/csv","size":"188 bytes","created":"Wed, 08\/20\/2025 - 15:02","resource_group_id":"8213480c-adb6-4936-8811-f1dd8f8b3a2f","last_modified":"Date changed  Thu, 09\/11\/2025 - 23:14"},{"id":"b2076a5e-6f0d-4337-9078-0c16364b4120","revision_id":"","url":"https:\/\/www.inptdat.de\/system\/files\/node876_PJAS_fig6b_PLC_devI-1_5slm.csv","description":"\u003Cp\u003EData table containing the patient leakage current (PLC) measurement data for all channels of the plasma jet array system (PJAS) independently at 5 slm as a function of the distance from the outlet.\u003C\/p\u003E\n","format":"csv","state":"Active","revision_timestamp":"Thu, 09\/11\/2025 - 23:14","name":"Safety and efficiency evaluation of an innovative plasma jet array in argon by gas switching technology - PLC PJAS device I-1 all channels (Fig. 6b)","mimetype":"text\/csv","size":"10.25 KB","created":"Mon, 06\/23\/2025 - 16:12","resource_group_id":"8213480c-adb6-4936-8811-f1dd8f8b3a2f","last_modified":"Date changed  Thu, 09\/11\/2025 - 23:14"},{"id":"f1182f66-caab-4b5a-8eb0-58a798da19f5","revision_id":"","url":"https:\/\/www.inptdat.de\/system\/files\/node876_OES_fig7a_nitrogen_intensities_377nm_2_5_slm.csv","description":"\u003Cp\u003EData table containing nitrogen intensities measured by optical emission spectroscopy (OES) at 377 nm for 2.5 slm at different distances from the plasma jet array system (PJAS) orifice ranging from 3 mm to 25 mm.\u003C\/p\u003E\n","format":"csv","state":"Active","revision_timestamp":"Thu, 09\/11\/2025 - 23:14","name":"Safety and efficiency evaluation of an innovative plasma jet array in argon by gas switching technology - OES N2 2.5 slm (Fig. 7a)","mimetype":"text\/csv","size":"1.61 KB","created":"Mon, 06\/23\/2025 - 16:01","resource_group_id":"8213480c-adb6-4936-8811-f1dd8f8b3a2f","last_modified":"Date changed  Thu, 09\/11\/2025 - 23:14"},{"id":"0a68aa14-8555-4dd5-b884-cb9a025acbfb","revision_id":"","url":"https:\/\/www.inptdat.de\/system\/files\/node876_OES_fig7a_nitrogen_intensities_377nm_5_slm.csv","description":"\u003Cp\u003EData table containing nitrogen intensities measured by optical emission spectroscopy (OES) at 377 nm for 5 slm at different distances from the plasma jet array system (PJAS) orifice ranging from 3 mm to 25 mm.\u003C\/p\u003E\n","format":"csv","state":"Active","revision_timestamp":"Thu, 09\/11\/2025 - 23:14","name":"Safety and efficiency evaluation of an innovative plasma jet array in argon by gas switching technology - OES N2 5 slm (Fig. 7a)","mimetype":"text\/csv","size":"2.18 KB","created":"Mon, 06\/23\/2025 - 16:06","resource_group_id":"8213480c-adb6-4936-8811-f1dd8f8b3a2f","last_modified":"Date changed  Thu, 09\/11\/2025 - 23:14"},{"id":"60d05b68-da0b-4903-be92-f533ebe2360e","revision_id":"","url":"https:\/\/www.inptdat.de\/system\/files\/node876_OES_fig7b_argon_intensities_811nm_2_5_slm.csv","description":"\u003Cp\u003EData table containing absolute (I) and relative (relI) argon intensities measured by optical emission spectroscopy (OES) at 811 nm for 2.5 slm at different distances from the plasma jet array system (PJAS) orifice ranging from 3 mm to 25 mm.\u003C\/p\u003E\n","format":"csv","state":"Active","revision_timestamp":"Thu, 09\/11\/2025 - 23:14","name":"Safety and efficiency evaluation of an innovative plasma jet array in argon by gas switching technology - OES Ar 2.5 slm (Fig. 7b)","mimetype":"text\/csv","size":"1.56 KB","created":"Mon, 06\/23\/2025 - 15:56","resource_group_id":"8213480c-adb6-4936-8811-f1dd8f8b3a2f","last_modified":"Date changed  Thu, 09\/11\/2025 - 23:14"},{"id":"d86feb60-f41c-4fc1-86a9-c2dcf894a31e","revision_id":"","url":"https:\/\/www.inptdat.de\/system\/files\/node876_OES_fig7b_argon_intensities_811nm_5_slm.csv","description":"\u003Cp\u003EData table containing absolute (I) and relative (relI) argon intensities measured by optical emission spectroscopy (OES) at 811 nm for 5 slm at different distances from the plasma jet array system (PJAS) orifice ranging from 3 mm to 25 mm.\u003C\/p\u003E\n","format":"csv","state":"Active","revision_timestamp":"Thu, 09\/11\/2025 - 23:14","name":"Safety and efficiency evaluation of an innovative plasma jet array in argon by gas switching technology - OES Ar 5 slm (Fig. 7b)","mimetype":"text\/csv","size":"2.13 KB","created":"Mon, 06\/23\/2025 - 15:59","resource_group_id":"8213480c-adb6-4936-8811-f1dd8f8b3a2f","last_modified":"Date changed  Thu, 09\/11\/2025 - 23:14"},{"id":"d3ee0941-1164-4070-944c-6ce71d95835f","revision_id":"","url":"https:\/\/www.inptdat.de\/system\/files\/node876_OZONE_fig8_PJ_PJAS-devII-2_5slm.csv","description":"\u003Cp\u003EData table containing the ozone concentrations measured for the kINPen and the plasma jet array system (PJAS) for a distance of 0 to 100 cm from the outlet. In addition to the direct measurement (0\u00b0 as with the PJ), the ozone concentrations for the PJAS were also  measured for a sideways direction of 45\u00b0 and 90\u00b0.\u003C\/p\u003E\n","format":"csv","state":"Active","revision_timestamp":"Thu, 09\/11\/2025 - 23:14","name":"Safety and efficiency evaluation of an innovative plasma jet array in argon by gas switching technology - Ozone PJ and PJAS (Fig. 8)","mimetype":"text\/csv","size":"289 bytes","created":"Mon, 06\/23\/2025 - 16:07","resource_group_id":"8213480c-adb6-4936-8811-f1dd8f8b3a2f","last_modified":"Date changed  Thu, 09\/11\/2025 - 23:14"}],"tags":[{"id":"6c5d9155-fae2-49f1-bef8-93ef6d8521b0","vocabulary_id":"2","name":"chronic wound"},{"id":"de9edf1f-ecd1-467f-8501-0c6c4ac25780","vocabulary_id":"2","name":"antibacterial"},{"id":"4455e1a9-b0fc-4e71-9b8c-31f7ee958079","vocabulary_id":"2","name":"flow switching technology"}],"groups":[{"description":"\u003Cp\u003E\u003Cstrong\u003ELeibniz Institute for Plasma Science and Technology\u003C\/strong\u003E\u003Cbr \/\u003E\nFelix-Hausdorff-Str. 2\u003Cbr \/\u003E\n17489 Greifswald\u003Cbr \/\u003E\nGERMANY\u003C\/p\u003E\n\u003Cp\u003E\u003Ca href=\u0022https:\/\/www.inp-greifswald.de\/en\/\u0022\u003Ehttps:\/\/www.inp-greifswald.de\/en\/\u003C\/a\u003E\u003Cbr \/\u003E\n\u003Cspan class=\u0022spamspan\u0022\u003E\u003Cspan class=\u0022u\u0022\u003Ewelcome\u003C\/span\u003E\u003Cimg class=\u0022spam-span-image\u0022 alt=\u0022at\u0022 width=\u002210\u0022 src=\u0022\/sites\/all\/modules\/spamspan\/image.gif\u0022 \/\u003E\u003Cspan class=\u0022d\u0022\u003Einp-greifswald\u003Cspan class=\u0022t\u0022\u003E [punkt] \u003C\/span\u003Ede\u003C\/span\u003E\u003C\/span\u003E\u003C\/p\u003E\n\u003Cp align=\u0022justify\u0022\u003EThe Leibniz Institute for Plasma Science and Technology (INP) is the largest non-university institute in the field of low temperature plasmas, their basics and technical applications in Europe. The institute carries out research and development from idea to prototype. The topics focus on the needs of the market. At present, plasmas for materials and energy as well as for environment and health are the focus of interest. \u003C\/p\u003E\n","id":"8213480c-adb6-4936-8811-f1dd8f8b3a2f","image_display_url":"https:\/\/www.inptdat.de\/sites\/default\/files\/inp.png","title":"INP","name":"group\/inp"}]}]}