Novel Flow Photoelectrocatalytic Reactors for Degradation of Pharmaceuticals in Waste Water

Code

L2-2614 (C) - included in ARIS records

Head

Period

9/1/2020 - 8/31/2024

Science

Engineering sciences and technologies (7)
Other (1)

Reseacher status

Researcher (7)
Junior expert or technical associate (1)

Education

Doctor's degree (5)
Other (3)

Sex

Woman (4)
Man (4)

Status

Employed at RO and RRD (7)
No data on employment in RO (1)

No. of publications

0 (1)
10–99 (5)
100–999 (2)

Projects / Programmes source: ARIS

source: ARIS

Novel Flow Photoelectrocatalytic Reactors for Degradation of Pharmaceuticals in Waste Water

Research activity

Code	Science	Field	Subfield
2.04.01	Engineering sciences and technologies	Materials science and technology	Inorganic nonmetallic materials

Code	Science	Field
2.05	Engineering and Technology	Materials engineering

Keywords

Photo(electro)catalysis, degradation of pharmaceuticals, waste waters, TiO2/TiOxNy nanotubes, anodic oxidation, photo(electro)catalytic reactors

Evaluation (rules)

source: COBISS

Evaluation of bibliographic research performance indicators according to ARIS methodology

Points

1,369.99

A''

525.11

A'

824.55

A1/2

1,193.33

CI10

2,757

CImax

183

h10

26

A1

5.35

A3

2.14

Data for the last 5 years (citations for the last 10 years) on April 25, 2024; A3 for period 2018-2022

Data for ARIS tenders ( 04.04.2019 – Programme tender, archive )

Citations Citations for bibliographic records in COBIB.SI that are linked to records in citation databases

source: WoS

source: Scopus

source: COBISS

Database	Linked records	Citations	Pure citations	Average pure citations
WoS	168	3,600	3,185	18.96
Scopus	170	3,935	3,501	20.59

Researchers (8)

no.	Code	Name and surname	Research area	Role	Period	No. of publicationsNo. of publications
1.	55496	PhD Belisa Alcantara Marinho	Materials science and technology	Researcher	2022	51
2.	03937	PhD Miran Čeh	Materials science and technology	Head	2020 - 2024	650
3.	57062	Nik Gračanin		Technical associate	2023 - 2024	29
4.	55788	Barbara Ljubec Božiček	Materials science and technology	Junior researcher	2022 - 2024	15
5.	50904	PhD Živa Marinko	Materials science and technology	Technical associate	2020 - 2024	40
6.	37986	Mario Marinović	Manufacturing technologies and systems	Researcher	2020 - 2024	0
7.	37792	PhD Luka Suhadolnik	Materials science and technology	Researcher	2020 - 2021	79
8.	28491	PhD Kristina Žagar Soderžnik	Materials science and technology	Researcher	2020 - 2024	206

Organisations (2)

no.	Code	Research organisation	City	Registration number	No. of publicationsNo. of publications
1.	0106	Jožef Stefan Institute	Ljubljana	5051606000	90,742
2.	3269	ARHEL projecting and engineering Ltd.	Ljubljana	1763881	510

Abstract

The proposed applied project, submitted by the Department for Nanostructured Materials, Jožef Stefan Institute (JSI) (http://nano.ijs.si/) and co-financer Arhel Ltd. (http://www.arhel.si/), foresees development of a new type of photoelectrocatalytic reactors based on a TiO2/TiOXNY nanotube photocatalyst for the decomposition of pharmaceuticals in waste waters. The production of highly active TiO2/TiOXNY photoanodes by process of anodic oxidation of metal titanium (wire, foil, mesh) followed by subsequent heat treatment in various atmospheres represents a very innovative approach, as the synthesised TiO2/TiOXNY photocatalyst is firmly bound to metal titanium, preventing secondary contamination of purified waste water with photocatalyst nanoparticles. The goal of the proposed project is to continue our development of photoelectrocatalytic reactors from the current technological readiness of TRL3 to higher TRL values and to establish subsequent joint endeavour with Arhel d.o.o. to bring resulting innovative applied solutions to market.