ProfessorsProfessors of Duke UniversityJohn Reif

John Reif

Duke University

H-index: 77

North America-United States

About John Reif

John Reif, With an exceptional h-index of 77 and a recent h-index of 37 (since 2020), a distinguished researcher at Duke University, specializes in the field of Computer Science, Nanoscience.

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

Social DNA Nanorobots

A survey on molecular-scale learning systems with relevance to DNA computing

Automated design of 3D DNA origami with non-rasterized 2D curvature

A lyophilized colorimetric RT-LAMP test kit for rapid, low-cost, at-home molecular testing of SARS-CoV-2 and other pathogens

Molecular computation via polymerase strand displacement reactions

Optics-Free Imaging with DNA Microscopy: An Overview

3D DNA nanostructures: the nanoscale architect

An Overview of DNA‐Based Digital Data Storage

John Reif Information

University	Duke University
Position	A. Hollis Edens Distinguished Professor Department of Computer Science
Citations(all)	27654
Citations(since 2020)	4872
Cited By	24696
hIndex(all)	77
hIndex(since 2020)	37
i10Index(all)	251
i10Index(since 2020)	85
Email	Access Email
University Profile Page	Duke University
Google Scholar	View Google Scholar Profile

John Reif Skills & Research Interests

Computer Science

Nanoscience

Top articles of John Reif

Title	Journal	Author(s)	Publication Date
Social DNA Nanorobots		Ming Yang John Reif	2023/7/5
A survey on molecular-scale learning systems with relevance to DNA computing		Rajiv Teja Nagipogu Daniel Fu John H Reif	2023
Automated design of 3D DNA origami with non-rasterized 2D curvature	Science Advances	Daniel Fu Raghu Pradeep Narayanan Abhay Prasad Fei Zhang Dewight Williams ...	2022/12/23
A lyophilized colorimetric RT-LAMP test kit for rapid, low-cost, at-home molecular testing of SARS-CoV-2 and other pathogens	Scientific Reports	Xin Song Felicity J Coulter Ming Yang Jessica L Smith Fikadu G Tafesse ...	2022/4/29
Molecular computation via polymerase strand displacement reactions		Shalin Shah Ming Yang Tianqi Song John Reif	2022
Optics-Free Imaging with DNA Microscopy: An Overview		Xin Song John Reif	2022
3D DNA nanostructures: the nanoscale architect		Daniel Fu John Reif	2021/3/16
An Overview of DNA‐Based Digital Data Storage		Xin Song Shalin Shah John Reif	2021/3/8
DNA Origami Transformers	DNA‐and RNA‐Based Computing Systems	Reem Mokhtar Tianqi Song Daniel Fu Shalin Shah Xin Song ...	2021/3/8
Multidimensional data organization and random access in large-scale DNA storage systems	Theoretical Computer Science	Xin Song Shalin Shah John Reif	2021/11/26
Imaging single-molecules with temporal DNA barcodes	Support of the Sixteenth Conference on the Foundations of Nanoscience (FNANO 2019)	Shalin Shah Abhishek Dubey John Reif	2020/2/27
ExTemp: A computational and image-processing suite for extracting temporal barcodes	Journal of Open Source Software	Shalin Shah Abhishek Dubey John Reif	2020/2/9
Autonomous Design of Biomimetic 3D DNA Origami Capsules		Raghu Pradeep Narayanan Daniel Fu Fei Zhang Dewight Williams John Schreck ...	2020
UV‐Micropatterned Miniaturization: Rapid In Situ Photopatterning and Miniaturization of Microscale Features on Shrinkable Thermoplastics	Advanced Materials Technologies	Xin Song Daniel Fu Shalin Shah John Reif	2020/6
Using strand displacing polymerase to program chemical reaction networks	Journal of the American Chemical Society	Shalin Shah Jasmine Wee Tianqi Song Luis Ceze Karin Strauss ...	2020/5/4