Publications

Sumary with citations:

Vedrtnam, Ajitanshu

• CHAUHAN, Balendra V. S.** – VEDRTNAM, Ajitanshu – WYCHE, Kevin P.** – VERMA, Sneha. Revolutionizing Natural Resource Management with Artificial Intelligence: A Review. In VEDRTNAM, Ajitanshu et al. Prospects of Artificial Intelligence in the Environment. – Singapore : Springer Nature Singapore, 2025, p. 143-170. ISBN 978-981-96-6862-5. Dostupné na: https://doi.org/10.1007/978-981-96-6863-2_5 Typ:
• CHAUHAN, Balendra V. S.** – VEDRTNAM, Ajitanshu – WYCHE, Kevin P. – VERMA, Sneha. Review on Artificial Intelligence in the Environmental Monitoring. In VEDRTNAM, Ajitanshu et al. Prospects of Artificial Intelligence in the Environment. – Singapore : Springer Nature Singapore, 2025, p. 29-60. ISBN 978-981-96-6862-5. Dostupné na: https://doi.org/10.1007/978-981-96-6863-2_2 Typ:
• KALAUNI, Kishor** – VEDRTNAM, Ajitanshu – PAWAR, S. J. Sustainable Grewia Optiva–Bio-Resin composites for broadband acoustic absorption. In Applied Acoustics, 2025, vol. 240, art. no. 110908, 23 p. (2024: 3.6 – IF, Q1 – JCR, 1.004 – SJR, Q1 – SJR). ISSN 0003-682X. Dostupné na: https://doi.org/10.1016/j.apacoust.2025.110908 Typ: ADCA
• KALAUNI, Kishor – CZIRÁK, Peter – CHATURVEDI, Shashikant – PALOU, Martin T. – VEDRTNAM, Ajitanshu**. Performance and design considerations for heavyweight self-compacting concrete using magnetite and barite aggregates. In Journal of building engineering, 2025, vol. 111, art. no. 113626. (2024: 7.4 – IF, Q1 – JCR, 1.636 – SJR, Q1 – SJR). ISSN 2352-7102. Dostupné na: https://doi.org/10.1016/j.jobe.2025.113626 Typ: ADCA
• KALAUNI, Kishor** – VEDRTNAM, Ajitanshu** – PAWAR, S. J. Sustainable Grewia Optiva-Bio-Resin composites for broadband acoustic absorption. In Applied Acoustics, 2025, vol. 240, art. no. 110908. (2024: 3.6 – IF, Q1 – JCR, 1.004 – SJR, Q1 – SJR). ISSN 0003-682X. Dostupné na: https://doi.org/10.1016/j.apacoust.2025.110908 Typ: ADMA
• NEGI, Harsha – VEDRTNAM, Ajitanshu** – KALAUNI, Kishor. A comprehensive review on natural fiber-reinforced polystyrene composites: Surface treatments, mechanical performance, and sustainable applications. In Journal of Thermoplastic Composite Materials, 2025, vol. 0, , pp. (2024: 3.4 – IF, Q2 – JCR, 0.756 – SJR, Q1 – SJR). ISSN 0892-7057. Dostupné na: https://doi.org/10.1177/08927057251352369 Typ:
• VEDRTNAM, Ajitanshu – KALAUNI, Kishor – SOARES, Nelson. Experimentally validated transient enthalpy-based FEM model for PCM-integrated building materials with advanced thermal and energy efficiency insights. In Case Studies in Thermal Engineering, 2025, vol. 72, art. no. 106374, 29 p. (2024: 6.4 – IF, Q1 – JCR, 1.061 – SJR, Q1 – SJR). ISSN 2214-157X. Dostupné na: https://doi.org/10.1016/j.csite.2025.106374 Typ: ADCA
• VEDRTNAM, Ajitanshu** – KALAUNI, Kishor – PALOU, Martin T.. Ranking Bacteria for Carbon Capture and Self-Healing in Concrete: Performance, Encapsulation, and Sustainability. In Sustainability, 2025, vol. 17, no. 12, art. no. 5353. (2024: 3.3 – IF, Q2 – JCR, 0.688 – SJR, Q1 – SJR). ISSN 2071-1050. Dostupné na: https://doi.org/10.3390/su17125353 (SASPRO 2 č. 1213/02/01 : Zlepšenie štrukturálnej bezpečnosti a energetickej účinnosti prostredníctvom vývoja trvalo udržateľných cementových kompozitov na báze cementu odolných voči extrémnym teplotám s funkciami samoopravenia po požiari. APVV-23-0383 : Pochopenie a zlepšenie hydratačných reakcií nízkouhlíkových cementov pre vývoj nízkouhlíkového betónu vrátane zachytávania uhlíka karbonatáciou. VEGA 2/0080/24 : Hydratačné procesy a tvorba mikroštruktúry nových kompozitných cementov a ich využitie na vývoj špeciálnych betónov) Typ: ADCA
• VEDRTNAM, Ajitanshu – KALAUNI, Kishor – PAHWA, Rahul. A review of water electrolysis technologies with insights into optimization and numerical simulations. In International Journal of Hydrogen Energy, 2025, vol. 140, p. 694–727. (2024: 8.3 – IF, Q1 – JCR, 1.685 – SJR, Q1 – SJR). ISSN 0360-3199. Dostupné na: https://doi.org/10.1016/j.ijhydene.2025.05.295 Typ: ADCA
• VEDRTNAM, Ajitanshu – PALOU, Martin T. – VARELA, Hugo – GUNWANT, Dheeraj – KALAUNI, Kishor – BARLUENGA, Gonzalo. Experimental and numerical study on post-fire self-healing concrete for enhanced durability. In Scientific Reports, 2025, vol. 15, no. 1, art. no. 9731. (2024: 3.9 – IF, Q1 – JCR, 0.874 – SJR, Q1 – SJR). ISSN 2045-2322. Dostupné na: https://doi.org/10.1038/s41598-025-94331-4 (SASPRO 2 č. 1213/02/01 : Zlepšenie štrukturálnej bezpečnosti a energetickej účinnosti prostredníctvom vývoja trvalo udržateľných cementových kompozitov na báze cementu odolných voči extrémnym teplotám s funkciami samoopravenia po požiari) Typ: ADCA
• VEDRTNAM, Ajitanshu** – KALAUNI, Kishor – PALOU, Martin T. Finite element simulation of bacterial self-healing in concrete using microstructural transport and precipitation modeling. In Scientific Reports, 2025, vol. 15, no. 1, art. no. 15809, 22 p. (2024: 3.9 – IF, Q1 – JCR, 0.874 – SJR, Q1 – SJR). ISSN 2045-2322. Dostupné na: https://doi.org/10.1038/s41598-025-99844-6 (SASPRO 2 č. 1213/02/01 : Zlepšenie štrukturálnej bezpečnosti a energetickej účinnosti prostredníctvom vývoja trvalo udržateľných cementových kompozitov na báze cementu odolných voči extrémnym teplotám s funkciami samoopravenia po požiari) Typ: ADCA
• VEDRTNAM, Ajitanshu – KALAUNI, Kishor – SOARES, Nelson. Finite element and genetic algorithm-based optimization of phase change material integration for passive thermal regulation in studio apartments in Portugal. In Journal of building engineering, 2025, vol. 106, art. no. 112647, 31 p. (2024: 7.4 – IF, Q1 – JCR, 1.636 – SJR, Q1 – SJR). ISSN 2352-7102. Dostupné na: https://doi.org/10.1016/j.jobe.2025.112647 Typ: ADCA
• VEDRTNAM, Ajitanshu – GUNWANT, Dheeraj – KALAUNI, Kishor – PALOU, Martin T.. Experimental and numerical study on sustainable post-fire repair of concrete structures using bacterial self-healing mechanisms. In Construction and Building Materials, 2025, vol. 474, art. no. 141175. (2024: 8 – IF, Q1 – JCR, 2.094 – SJR, Q1 – SJR). ISSN 0950-0618. Dostupné na: https://doi.org/10.1016/j.conbuildmat.2025.141175 (SASPRO 2 č. 1213/02/01 : Zlepšenie štrukturálnej bezpečnosti a energetickej účinnosti prostredníctvom vývoja trvalo udržateľných cementových kompozitov na báze cementu odolných voči extrémnym teplotám s funkciami samoopravenia po požiari) Typ: ADMA