Dr.-Ing. K. M. Salah-Uddin

Wissenschaftl. Mitarbeiter

Salah-Uddin, K. M.
Telefon
+49 561 804-2629
Fax
+49 561 804-2662
E-Mail
Standort
Mönchebergstraße 7
34125 Kassel
Raum
Ingenieurwissenschaften III, 1304

Curriculum Vitae

  • seit 2015 - Doktorand in der Nachwuchsgruppe Simulation materialchemischer Prozesse im Fachgebiet Werkstoffe des Bauwesens und Bauchemie
  • 2011-2014 - Studium Master in Chemie an der Universität Siegen, Siegen.
  • 2009-2011 -Studium Master in Chemie an der Universität Dhaka, Dhaka,Bangladesh.
  • 2004-2008 - Studium Bachelor in Chemie an der Universität Dhaka, Dhaka, Bangladesh. 

Publikationen

2022

Salah Uddin, K.M., Izadifar, M., Ukrainczyk, N., Koenders, E., Middendorf, B. (Hrsg.), 2022. Portlandite dissolution: Part 1. Mechanistic insight by Molecular Dynamics (MD), EURO-C 2022. CRC Press/Balkema, Austria.
Izadifar, M., Ukrainczyk, N., Salah Uddin, K.M., Middendorf, B., Koenders, E., 2022. Dissolution of Portlandite in Pure Water: Part 2 Atomistic Kinetic Monte Carlo (KMC) Approach. Materials 15, 1442.
Salah Uddin, K.M., Izadifar, M., Ukrainczyk, N., Koenders, E., Middendorf, B., 2022. Dissolution of β-C2S Cement Clinker: Part 1 Molecular Dynamics (MD) Approach for Different Crystal Facets. Materials 15, 6388. https://doi.org/10.3390/ma15186388
Izadifar, M., Ukrainczyk, N., Salah Uddin, K.M., Middendorf, B., Koenders, E. (Hrsg.), 2022. Portlandite dissolution: Part 2. Forward rates by Kenitic Monte Carlo (KMC), EURO-C 2022. CRC Press/Balkema, Vienna.
Salah Uddin, K.M., Izadifar, M., Ukrainczyk, N., Koenders, E., Middendorf, B., 2022. Dissolution of Portlandite in Pure Water: Part 1 Molecular Dynamics (MD) Approach. Materials 15, 6388. https://doi.org/10.3390/ma15041404
Izadifar, M., Ukrainczyk, N., Salah Uddin, K.M., Middendorf, B., Koenders, E., 2022. Dissolution of β-C2S Cement Clinker: Part 2 Atomistic Kinetic Monte Carlo (KMC) Upscaling Approach. Materials 15, 6716.
Zare, S., Salah Uddin, K.M., Funk, A., R. S. Miller, Q., Qomi, M.J.A., 2022. Nanoconfinement matters in humidified CO2 interaction with metal silicates. Royal Society of Chemistry 1000. https://doi.org/10.1039/d2en00148a

2020

Salah Uddin, K.M., 2020. Elucidation of Chemical Reaction Pathways in Cementitious Materials. kup (kassel university press). https://doi.org/10.17170/kobra-202009211835

2019

Salah Uddin, K.M., Middendorf, B. (Hrsg.), 2019. Mechanistic insight into the formation of C-S-H gel during cement hydration. EMI 2019, Engineering Mechanics Institute Conference (EMI 2019), California Institute of Technology (Caltech), California, USA.
Salah Uddin, K.M., 2019. Reactivity of different crystalline surfaces of C3S during early hydration by the atomistic approach. Materials 12, 1514. https://doi.org/10.3390/ma12091514

2018

Salah Uddin, K.M., Middendorf, B. (Hrsg.), 2018. Atomistic modeling of early Hydration of alite. CRC Press/Balkema, Leiden, Netherlands.
Salah Uddin, K.M., Middendorf, B. (Hrsg.), 2018. Insight into the reactivity of different crystalline phases of C3S during early hydration by the atomistic approach. 20. Internationalen Baustofftagung (ibausil), F. A. Finger-Institute Für Baustoffkunde der Bauhaus-Universität Weimar.
Salah Uddin, K.M., Middendorf, B. (Hrsg.), 2018. Early Hydration of Tricalcium Silicate by Atomistic Simulation. EMI 2018, Engineering Mechanics Institute Conference (EMI 2018), Massachusetts Institute of Technology (M.I.T), Boston, USA.

2017

Salah Uddin, K.M., Middendorf, B. (Hrsg.), 2017. Atomistic study of silicate polymerization during cement hydration. CINSaT, Ahron Berghotel Friedrichroda.
Salah Uddin, K.M., Middendorf, B. (Hrsg.), 2017. New Insight into Early Hydration of C3S by Atomistic Simulation. GDCh Tagung Bauchemie, Bauhaus-Universität Weimar, Weimar.

2016

Salah Uddin, K.M., Funk, A., 2016. Atomistic Modelling of cementitious Materials, in: Fehling, E., Middendorf, B., Thiemicke, J. (Hrsg.), Ultra-High Performance Concrete and High Performance Construction Materials. Kassel University Press, Kassel, S. 219–220.
Funk, A., Salah Uddin, K.M., Wetzel, A., Middendorf, B. (Hrsg.), 2016. Carbonation of Portlandite in Low Humidity Environments. Cement and its Applications, 88-92.

2015

Funk, A., Salah Uddin, K.M., Wetzel, A., Middendorf, B., 2015. Carbonation of Portlandite in Low Humidity Environments, in: Ludwig, H.-M. (Hrsg.), 19. Internationale Baustofftagung. F. A. Finger-Institut für Baustoffkunde, Bauhaus-Universität Weimar, Weimar, S. 89–95.

2014

Salah Uddin, K.M., 2014. Masterarbeit „Drug release from the hydrogel layers“.

2013

Salah Uddin, K.M., Jonas, U., Hadjicharalambous, S. (Hrsg.), 2013. Novel Coating Strategies for Hydrogel Cell Cultivation Supports. Hessisches Staatsarchiv, Darmstadt.