Mohammad Reza Abidian

University of Houston

H-index: 25

North America-United States

About Mohammad Reza Abidian

Mohammad Reza Abidian, With an exceptional h-index of 25 and a recent h-index of 20 (since 2020), a distinguished researcher at University of Houston, specializes in the field of Neural Biomaterials, Neural Tissue Engineering.

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

Highly conductive and bioactive photosensitivie resins for development of functional and hybrid electronics and sensors

Technology roadmap for flexible sensors

Organic semiconductor nanotubes for electrochemical bioelectronics and biosensors with tunable dynamics

Direct Laser 3D Printing of Organic Semiconductor Microdevices for Bioelectronics and Biosensors

Nanoparticle Rigidity for Brain Tumor Cell Uptake

Acknowledgment to Reviewers of Sensors in 2021

Multiphoton Lithography of Organic Semiconductor Devices for 3D Printing of Flexible Electronic Circuits, Biosensors, and Bioelectronics

Biodegradable Nanoparticles: Tumor Targeted Delivery of an Anti‐Cancer Therapeutic: An In Vitro and In Vivo Evaluation (Adv. Healthcare Mater. 2/2021)

Mohammad Reza Abidian Information

University	University of Houston
Position	Associate Professor Biomedical Engineering
Citations(all)	5365
Citations(since 2020)	2249
Cited By	4199
hIndex(all)	25
hIndex(since 2020)	20
i10Index(all)	31
i10Index(since 2020)	25
Email	Access Email
University Profile Page	University of Houston
Google Scholar	View Google Scholar Profile

Mohammad Reza Abidian Skills & Research Interests

Neural Biomaterials

Neural Tissue Engineering

Top articles of Mohammad Reza Abidian

Title	Journal	Author(s)	Publication Date
Highly conductive and bioactive photosensitivie resins for development of functional and hybrid electronics and sensors			2023/3/23
Technology roadmap for flexible sensors		Yifei Luo Mohammad Reza Abidian Jong-Hyun Ahn Deji Akinwande Anne M Andrews ...	2023/3/9
Organic semiconductor nanotubes for electrochemical bioelectronics and biosensors with tunable dynamics			2023/1/26
Direct Laser 3D Printing of Organic Semiconductor Microdevices for Bioelectronics and Biosensors		Omid Dadras-Toussi VijayKrishna Raghunathan Sheereen Majd Mohammad Reza Abidian	2022/7/11
Nanoparticle Rigidity for Brain Tumor Cell Uptake		Chung-Fan Kuo Fereshtehsadat Mirab Mohammad Reza Abidian Sheereen Majd	2022/7/11
Acknowledgment to Reviewers of Sensors in 2021		Sensors Editorial Office	2022/1/29
Multiphoton Lithography of Organic Semiconductor Devices for 3D Printing of Flexible Electronic Circuits, Biosensors, and Bioelectronics	Advanced Materials	Omid Dadras‐Toussi Milad Khorrami Anto Sam Crosslee Louis Sam Titus Sheereen Majd Chandra Mohan ...	2022/7
Biodegradable Nanoparticles: Tumor Targeted Delivery of an Anti‐Cancer Therapeutic: An In Vitro and In Vivo Evaluation (Adv. Healthcare Mater. 2/2021)	Advanced Healthcare Materials	You Jung Kang Claire K Holley Mohammad Reza Abidian Achuthamangalam B Madhankumar James Connor ...	2021/1
Tumor Targeted Delivery of an Anti‐Cancer Therapeutic: An In Vitro and In Vivo Evaluation	Advanced Healthcare Materials	You Jung Kang Claire K Holley Mohammad Reza Abidian Achuthamangalam B Madhankumar James Connor ...	2021/1
Femtosecond laser 3D-printing of conductive microelectronics for potential biomedical applications		Omid Dadras-Toussi Milad Khorrami Mohammad Reza Abidian	2021/11/1
Gradients of Surface-Bound Laminin on Conducting Polymer Films for Potential Nerve Regeneration		Omid Dadras-Toussi Milad Khorrami Sheereen Majd Mohammad Reza Abidian	2021/5/4
Conducting polymer microcontainers for organic bioelectronics and drug delivery			2020/6/18
Effect of static cold storage on skeletal muscle after vascularized composite tissue allotransplantation	Journal of reconstructive microsurgery	Emre Gok Carrie A Kubiak Erin Guy Stephen WP Kemp Kagan Ozer	2020/1