Ismael Justo-Reinoso at University of Bath

University	University of Bath
Position	___
Citations(all)	174
Citations(since 2020)	174
Cited By	30
hIndex(all)	7
hIndex(since 2020)	7
i10Index(all)	6
i10Index(since 2020)	6
Email	Access Email
University Profile Page	University of Bath
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Assessing the potential application of bacteria-based self-healing cementitious materials for enhancing durability of wastewater treatment infrastructure

Cement and Concrete Composites

2023/10/1

Ismael Justo-Reinoso

H-Index: 3

Saimir Luli

H-Index: 8

Ange Therese Akono

H-Index: 13

Enrico Masoero

H-Index: 15

Kevin Paine

H-Index: 21

Susanne Gebhard

H-Index: 19

The effect of oxygen and water on the provision of crack closure in bacteria-based self-healing cementitious composites

Cement and Concrete Composites

2023/9/1

Bianca Reeksting

H-Index: 6

Ismael Justo-Reinoso

H-Index: 3

Veronica Ferrandiz-Mas

H-Index: 9

Andrew Heath

H-Index: 22

Susanne Gebhard

H-Index: 19

Kevin Paine

H-Index: 21

Bacteria-based self-healing concrete− A life cycle assessment perspective

Developments in the Built Environment

2023/12/1

Ismael Justo-Reinoso

H-Index: 3

Susanne Gebhard

H-Index: 19

Kevin Paine

H-Index: 21

Advancements in bacteria based self-healing concrete and the promise of modelling

2022/12/5

Aleena Alex

H-Index: 2

Ismael Justo-Reinoso

H-Index: 3

Susanne Gebhard

H-Index: 19

Kevin Paine

H-Index: 21

Enrico Masoero

H-Index: 15

Aerobic non-ureolytic bacteria-based self healing concrete: Effects of environmental and exposure conditions.

2021/10/1

Ismael Justo-Reinoso

H-Index: 3

Andrew Heath

H-Index: 22

Susanne Gebhard

H-Index: 19

Kevin Paine

H-Index: 21

Self-Healing Concrete: The Surprise in the Wastewater

2022/6/20

Kevin Paine

H-Index: 21

Susanne Gebhard

H-Index: 19

Use of 3D mini-vascular networks to protect and deliver bacterial spores in self-healing concretes

2022/6/20

Cristina De Nardi

H-Index: 5

Bianca Reeksting

H-Index: 6

Susanne Gebhard

H-Index: 19

Kevin Paine

H-Index: 21

Evaluation of cyclic healing potential of bacteria-based self-healing cementitious composites

Sustainability

2022/6/3

Ismael Justo-Reinoso

H-Index: 3

Andrew Heath

H-Index: 22

Susanne Gebhard

H-Index: 19

Kevin Paine

H-Index: 21

Air-entraining admixtures as a protection method for bacterial spores in self-healing cementitious composites: Healing evaluation of early and later-age cracks

Construction and Building Materials

2022/4/11

Ismael Justo-Reinoso

H-Index: 3

Andrew Heath

H-Index: 22

Susanne Gebhard

H-Index: 19

Kevin Paine

H-Index: 21

Dataset for" Air-entraining admixtures as a protection method for bacterial spores in self-healing cementitious composites: Healing evaluation of early and later-age cracks"

2022/2/24

Bianca Reeksting

H-Index: 6

Andrew Heath

H-Index: 22

Susanne Gebhard

H-Index: 19

Kevin Paine

H-Index: 21

Cyclic Healing of Later-Aged Cracks in Bacteria-Based Self-Healing Cementitious Composites.

2021/10/12

Bianca Reeksting

H-Index: 6

Andrew Heath

H-Index: 22

Susanne Gebhard

H-Index: 19

Kevin Paine

H-Index: 21

Proceedings of the Resilient Materials 4 Life 2020 (RM4L2020) International Conference

2021/9/30

Influence of copper-impregnated basic oxygen furnace slag on the fresh-and hardened-state properties of antimicrobial mortars

Cement and Concrete Composites

2021/8/1

Ismael Justo-Reinoso

H-Index: 3

Compositions for Controlling Microbially Induced Concrete Corrosion

2023/3/9

Dispersion and effects of metal impregnated granular activated carbon particles on the hydration of antimicrobial mortars

Cement and Concrete Composites

2020/7/1

Ismael Justo-Reinoso

H-Index: 3

Ismael Justo-Reinoso

University of Bath

About Ismael Justo-Reinoso

Ismael Justo-Reinoso Information

Ismael Justo-Reinoso Skills & Research Interests

Top articles of Ismael Justo-Reinoso

Assessing the potential application of bacteria-based self-healing cementitious materials for enhancing durability of wastewater treatment infrastructure

Ismael Justo-Reinoso

Saimir Luli

Ange Therese Akono

Enrico Masoero

Kevin Paine

Susanne Gebhard

The effect of oxygen and water on the provision of crack closure in bacteria-based self-healing cementitious composites

Bianca Reeksting

Ismael Justo-Reinoso

Veronica Ferrandiz-Mas

Andrew Heath

Susanne Gebhard

Kevin Paine

Bacteria-based self-healing concrete− A life cycle assessment perspective

Ismael Justo-Reinoso

Susanne Gebhard

Kevin Paine

Advancements in bacteria based self-healing concrete and the promise of modelling

Aleena Alex

Ismael Justo-Reinoso

Susanne Gebhard

Kevin Paine

Enrico Masoero

Aerobic non-ureolytic bacteria-based self healing concrete: Effects of environmental and exposure conditions.

Ismael Justo-Reinoso

Andrew Heath

Susanne Gebhard

Kevin Paine

Self-Healing Concrete: The Surprise in the Wastewater

Kevin Paine

Susanne Gebhard

Use of 3D mini-vascular networks to protect and deliver bacterial spores in self-healing concretes

Cristina De Nardi

Bianca Reeksting

Susanne Gebhard

Kevin Paine

Evaluation of cyclic healing potential of bacteria-based self-healing cementitious composites

Ismael Justo-Reinoso

Andrew Heath

Susanne Gebhard

Kevin Paine

Air-entraining admixtures as a protection method for bacterial spores in self-healing cementitious composites: Healing evaluation of early and later-age cracks

Ismael Justo-Reinoso

Andrew Heath

Susanne Gebhard

Kevin Paine

Dataset for" Air-entraining admixtures as a protection method for bacterial spores in self-healing cementitious composites: Healing evaluation of early and later-age cracks"

Bianca Reeksting

Andrew Heath

Susanne Gebhard

Kevin Paine

Cyclic Healing of Later-Aged Cracks in Bacteria-Based Self-Healing Cementitious Composites.

Bianca Reeksting

Andrew Heath

Susanne Gebhard

Kevin Paine

Proceedings of the Resilient Materials 4 Life 2020 (RM4L2020) International Conference

Influence of copper-impregnated basic oxygen furnace slag on the fresh-and hardened-state properties of antimicrobial mortars

Ismael Justo-Reinoso

Compositions for Controlling Microbially Induced Concrete Corrosion

Dispersion and effects of metal impregnated granular activated carbon particles on the hydration of antimicrobial mortars

Ismael Justo-Reinoso

Co-Authors

Mark Hernandez

Kevin Paine

Andrew Heath

Anthony Jefferson

Susanne Gebhard

Wil V. Srubar III, Ph.D.