Core Metrics
Total Citations
8,414
H-Index
38
Publications
194
i10-Index
76
2-Year Citedness
6.1
avg citations per work
Ability Dimensions
8,414 citations, h=38
2yr mean: 6.1
194 papers (7.5/year)
43 cites/paper
3 unique research topics
4 topic areas
Top 3 papers: 29% of citations
* Percentile scores are calculated relative to all scholars in the computational neuroscience dataset. Tags are assigned based on dimension combinations. Hover over the radar chart for details.
Scholar Profile Analysis
Panayiota Poirazi is a rising scholar with 5k+ citations in computational neuroscience, currently affiliated with FORTH Institute of Molecular Biology and Biotechnology.
Over a 26-year academic career, published 194 papers (averaging 7.5 per year), with 8,414 citations.
An h-index of 38 reflects an active and influential researcher.
Primary research areas include Welfare, Fermentation, Recall.
Key Findings
Signature Work
"A deep learning framework for neuroscience" is the most influential work, with 1,018 citations, published in 2019.
Early Career Analysis (First 5 Years)
Career Start
1999 - 2003
Early Citations
1,890
Early Works
6
Early Impact %
22.5%
Top Early Career Paper
Pyramidal Neuron as Two-Layer Neural Network
Publication Timeline
Research Topics
Top Publications
A deep learning framework for neuroscience
1,018
Citations
Pyramidal Neuron as Two-Layer Neural Network
802
Citations
Impact of Active Dendrites and Structural Plasticity on the Memory Capacity of Neural Tissue
617
Citations
Dendritic action potentials and computation in human layer 2/3 cortical neurons
570
Citations
CREB regulates excitability and the allocation of memory to subsets of neurons in the amygdala
541
Citations
Arithmetic of Subthreshold Synaptic Summation in a Model CA1 Pyramidal Cell
449
Citations
Illuminating dendritic function with computational models
285
Citations
Computational modeling of the effects of amyloid-beta on release probability at hippocampal synapses
230
Citations
Vasoactive Intestinal Polypeptide-Expressing Interneurons in the Hippocampus Support Goal-Oriented Spatial Learning
228
Citations
Breakdown of spatial coding and interneuron synchronization in epileptic mice
202
Citations