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Matthias Haberl

About Matthias Haberl

Matthias Haberl, With an exceptional h-index of 10 and a recent h-index of 10 (since 2020), a distinguished researcher at Charité - Universitätsmedizin Berlin, specializes in the field of Neuroscience.

His recent articles reflect a diverse array of research interests and contributions to the field:

Localized APP expression results in progressive network dysfunction by disorganizing spike timing

Localized APP pathology in the hippocampus is sufficient to result in progressive disorganization of the timing of neuronal firing patterns

Nanoscale 3D EM reconstructions reveal intrinsic mechanisms of structural diversity of chemical synapses

Genetic Probe for Visualizing Glutamatergic Synapses and Vesicles by 3D Electron Microscopy

Microglial Gi-dependent dynamics regulate brain network hyperexcitability

TOWARD HIGH RESOLUTION INTRACELLULAR MAPS IN SPACE AND TIME

A genetic probe for visualizing glutamatergic synapses and vesicles by 3D electron microscopy

CDeep3M-Preview: Online segmentation using the deep neural network model zoo

Matthias Haberl Information

University

Position

___

Citations(all)

897

Citations(since 2020)

730

Cited By

451

hIndex(all)

10

hIndex(since 2020)

10

i10Index(all)

10

i10Index(since 2020)

10

Email

University Profile Page

Google Scholar

Matthias Haberl Skills & Research Interests

Neuroscience

Top articles of Matthias Haberl

Localized APP expression results in progressive network dysfunction by disorganizing spike timing

Neuron

2023/10/30

Gautam Narayan
Gautam Narayan

H-Index: 4

Localized APP pathology in the hippocampus is sufficient to result in progressive disorganization of the timing of neuronal firing patterns

bioRxiv

2022

Gautam Narayan
Gautam Narayan

H-Index: 4

Nanoscale 3D EM reconstructions reveal intrinsic mechanisms of structural diversity of chemical synapses

Cell reports

2021/4/6

Matthias Haberl
Matthias Haberl

H-Index: 8

Mark Ellisman
Mark Ellisman

H-Index: 71

Genetic Probe for Visualizing Glutamatergic Synapses and Vesicles by 3D Electron Microscopy

ACS chemical neuroscience

2021/2/1

Thomas Steinkellner
Thomas Steinkellner

H-Index: 11

Vivien Zell
Vivien Zell

H-Index: 10

Ranjan Ramachandra
Ranjan Ramachandra

H-Index: 11

Stephen Adams
Stephen Adams

H-Index: 2

Daniela Boassa
Daniela Boassa

H-Index: 25

Microglial Gi-dependent dynamics regulate brain network hyperexcitability

Nature neuroscience

2021/1

Keran Ma
Keran Ma

H-Index: 7

Keun-Young Kim
Keun-Young Kim

H-Index: 21

Eric A Bushong
Eric A Bushong

H-Index: 33

Zhaoqi Yan
Zhaoqi Yan

H-Index: 10

Katerina Akassoglou
Katerina Akassoglou

H-Index: 41

TOWARD HIGH RESOLUTION INTRACELLULAR MAPS IN SPACE AND TIME

Computational Modeling: From Chemistry To Materials To Biology-Proceedings Of The 25th Solvay Conference On Chemistry

2020/12/21

A genetic probe for visualizing glutamatergic synapses and vesicles by 3D electron microscopy

bioRxiv

2020/8/3

Thomas Steinkellner
Thomas Steinkellner

H-Index: 11

Vivien Zell
Vivien Zell

H-Index: 10

Ranjan Ramachandra
Ranjan Ramachandra

H-Index: 11

Stephen Adams
Stephen Adams

H-Index: 2

Thomas Hnasko
Thomas Hnasko

H-Index: 29

Daniela Boassa
Daniela Boassa

H-Index: 25

CDeep3M-Preview: Online segmentation using the deep neural network model zoo

BioRxiv

2020/3/26

Willy Wong
Willy Wong

H-Index: 16

Daniela Boassa
Daniela Boassa

H-Index: 25

See List of Professors in Matthias Haberl University(Charité - Universitätsmedizin Berlin)

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