Thomas F Schranghamer
Thomas F Schranghamer
Other namesThomas Schranghamer
Graduate Researcher, Penn State University
Verified email at
Cited by
Cited by
Graphene memristive synapses for high precision neuromorphic computing
TF Schranghamer, A Oberoi, S Das
Nature communications 11 (1), 5474, 2020
Graphene-based physically unclonable functions that are reconfigurable and resilient to machine learning attacks
A Dodda, S Subbulakshmi Radhakrishnan, TF Schranghamer, D Buzzell, ...
Nature Electronics 4 (5), 364-374, 2021
Review and comparison of layer transfer methods for two-dimensional materials for emerging applications
TF Schranghamer, M Sharma, R Singh, S Das
Chemical Society Reviews 50 (19), 11032-11054, 2021
Graphene and beyond: Recent advances in two-dimensional materials synthesis, properties, and devices
Y Lei, T Zhang, YC Lin, T Granzier-Nakajima, G Bepete, DA Kowalczyk, ...
ACS Nanoscience Au 2 (6), 450-485, 2022
A Sparse and Spike‐Timing‐Based Adaptive Photoencoder for Augmenting Machine Vision for Spiking Neural Networks
S Subbulakshmi Radhakrishnan, S Chakrabarti, D Sen, M Das, ...
Advanced Materials 34 (48), 2202535, 2022
Hardware implementation of Bayesian network based on two-dimensional memtransistors
Y Zheng, H Ravichandran, TF Schranghamer, N Trainor, JM Redwing, ...
Nature communications 13 (1), 5578, 2022
Logic Locking of Integrated Circuits Enabled by Nanoscale MoS2-Based Memtransistors
S Chakrabarti, A Wali, H Ravichandran, S Kundu, TF Schranghamer, ...
ACS Applied Nano Materials 5 (10), 14447-14455, 2022
Insect-inspired, spike-based, in-sensor, and night-time collision detector based on atomically thin and light-sensitive memtransistors
D Jayachandran, A Pannone, M Das, TF Schranghamer, D Sen, S Das
ACS nano 17 (2), 1068-1080, 2022
Ultrascaled Contacts to Monolayer MoS2 Field Effect Transistors
TF Schranghamer, NU Sakib, MUK Sadaf, ...
Nano letters 23 (8), 3426-3434, 2023
A graphene-based straintronic physically unclonable function
S Ghosh, Y Zheng, SS Radhakrishnan, TF Schranghamer, S Das
Nano letters 23 (11), 5171-5179, 2023
A monolithic stochastic computing architecture for energy efficient arithmetic
H Ravichandran, Y Zheng, TF Schranghamer, N Trainor, JM Redwing, ...
Advanced Materials 35 (2), 2206168, 2023
Radiation resilient two-dimensional electronics
TF Schranghamer, A Pannone, H Ravichandran, SP Stepanoff, N Trainor, ...
Acs Applied Materials & Interfaces 15 (22), 26946-26959, 2023
Ultra-scaled phototransistors based on monolayer MoS2
TF Schranghamer, SP Stepanoff, N Trainor, JM Redwing, DE Wolfe, ...
Device 1 (4), 2023
A Peripheral-Free True Random Number Generator Based on Integrated Circuits Enabled by Atomically Thin Two-Dimensional Materials
H Ravichandran, D Sen, A Wali, TF Schranghamer, N Trainor, ...
ACS nano 17 (17), 16817-16826, 2023
A Monolithic Stochastic Computing Architecture for Energy and Area Efficient Arithmetic
H Ravichandran, Y Zheng, T Schranghamer, N Trainor, J Redwing, S Das
Monolithic and heterogeneous three-dimensional (3D) integration of two-dimensional (2D) materials using dense vias
S Das, S Ghosh, Y Zheng, Z Zhang, Y Sun, T Schranghamer, NU Sakib, ...
Hardware Acceleration of Bayesian Network based on Two-dimensional Memtransistors
Y Zheng, H Ravichandran, T Schranghamer, N Trainor, J Redwing, S Das
Multi-bit Graphene Memristive Synapses for High Precision Neuromorphic Computing
T Schranghamer
A Monolithic Stochastic Computing Architecture for Energy and Area E cient Arithmetic
H Ravichandran, Y Zheng, T Schranghamer, N Trainor, J Redwing, S Das
Hardware Acceleration of Sparse and Spike-timing based Adaptive Photo Encoder
SS Radhakrishnan, S Chakrabarti, D Sen, M Das, TF Schranghamer, ...
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