Dr Asma Ahmed

NameDr Asma Ahmed
Job titleSenior Lecturer
Research instituteSchool of Human and Life Sciences

Research outputs

Fungal biofilms as low-modulus structural biocomposites

Ahmed, A. and Narayanan, R.A. 2020. Fungal biofilms as low-modulus structural biocomposites.

Method for obtaining a glycoprotein composition

Ahmed, A., Hariharan, R. and Naresh, B.S. 2020. Method for obtaining a glycoprotein composition. Indian Patent 352861

A first report on competitive inhibition of laccase enzyme by lignin degradation intermediates

Pamidpati, S. and Ahmed, A. 2019. A first report on competitive inhibition of laccase enzyme by lignin degradation intermediates. Folia Microbiologica. https://doi.org/10.1007/s12223-019-00765-5

Influence of carbon source complexity on porosity, water retention and extracellular matrix composition of Neurospora discreta biofilms

Ahmed, A., Narayanan, R. Aravinda and Veni, Abinaya R. 2019. Influence of carbon source complexity on porosity, water retention and extracellular matrix composition of Neurospora discreta biofilms. Journal of Applied Microbiology. https://doi.org/10.1111/jam.14539

Arrested fungal biofilms as low-modulus structural bio-composites: water holds the key

Aravinda Narayanan, R. and Ahmed, A. 2019. Arrested fungal biofilms as low-modulus structural bio-composites: water holds the key. The European Physical Journal E. 42 (134). https://doi.org/10.1140/epje/i2019-11899-2

A study on solid state fermentations of Sugarcane Bagasse using different fungi

Pamidipati, S. and Ahmed, A. 2014. A study on solid state fermentations of Sugarcane Bagasse using different fungi.

Cellulase stimulation during biodegradation of lignocellulosic residues at increased biomass loading

Pamidipati, S. and Ahmed, A. 2018. Cellulase stimulation during biodegradation of lignocellulosic residues at increased biomass loading. Biocatalysis and Biotransformation. https://doi.org/10.1080/10242422.2018.1508284

Bio-processing of agricultural residues to bio-fuels using Neurospora discreta

Pamidipati, S. and Ahmed, A. 2017. Bio-processing of agricultural residues to bio-fuels using Neurospora discreta.

Improved ammonium removal from industrial wastewater through systematic adaptation of wild type Chlorella pyrenoidosa

Ahmed, A., Nimmakayala, J. and Ramesh, A. 2017. Improved ammonium removal from industrial wastewater through systematic adaptation of wild type Chlorella pyrenoidosa. Water Science & Technology. 75 (1), pp. 182-188. https://doi.org/10.2166/wst.2016.507

Degradation of lignin in agricultural residues by locally isolated fungus Neurospora discreta

Pamidipati, S. and Ahmed, A. 2016. Degradation of lignin in agricultural residues by locally isolated fungus Neurospora discreta. Applied Biochemistry and Biotechnology.
  • 152
    total views of outputs
  • 42
    total downloads of outputs
  • 1
    views of outputs this month
  • 8
    downloads of outputs this month