Alex Chortos

Overview

Explore the profile of Alex Chortos including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 26

Citations 2040

Followers 0

Related Specialties

Science

Biotechnology

Biology

Top 10 Co-Authors

Zhenan Bao

Raphael Pfattner

Jeffrey B-H Tok

Nan Liu

Chenxin Zhu

Won-Gyu Bae

Huiliang Wang

John W F To

Jong Won Chung

Jin Young Oh

Published In

Adv Mater

ACS Nano

Nat Commun

Sci Adv

Science

Affiliations

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Recent Articles

11.

Microstructural origin of resistance-strain hysteresis in carbon nanotube thin film conductors

Jin L, Chortos A, Lian F, Pop E, Linder C, Bao Z, et al.

Proc Natl Acad Sci U S A . 2018 Feb; 115(9):1986-1991. PMID: 29440431

A basic need in stretchable electronics for wearable and biomedical technologies is conductors that maintain adequate conductivity under large deformation. This challenge can be met by a network of one-dimensional...

12.

Ultratransparent and stretchable graphene electrodes

Liu N, Chortos A, Lei T, Jin L, Kim T, Bae W, et al.

Sci Adv . 2017 Sep; 3(9):e1700159. PMID: 28913422

Two-dimensional materials, such as graphene, are attractive for both conventional semiconductor applications and nascent applications in flexible electronics. However, the high tensile strength of graphene results in fracturing at low...

13.

Hybrid 3D Printing of Soft Electronics

Valentine A, Busbee T, Boley J, Raney J, Chortos A, Kotikian A, et al.

Adv Mater . 2017 Sep; 29(40). PMID: 28875572

Hybrid 3D printing is a new method for producing soft electronics that combines direct ink writing of conductive and dielectric elastomeric materials with automated pick-and-place of surface mount electronic components...

14.

Investigating Limiting Factors in Stretchable All-Carbon Transistors for Reliable Stretchable Electronics

Chortos A, Zhu C, Oh J, Yan X, Pochorovski I, To J, et al.

ACS Nano . 2017 Jul; 11(8):7925-7937. PMID: 28745872

Stretchable form factors enable electronic devices to conform to irregular 3D structures, including soft and moving entities. Intrinsically stretchable devices have potential advantages of high surface coverage of active devices,...

15.

Universal Selective Dispersion of Semiconducting Carbon Nanotubes from Commercial Sources Using a Supramolecular Polymer

Chortos A, Pochorovski I, Lin P, Pitner G, Yan X, Gao T, et al.

ACS Nano . 2017 May; 11(6):5660-5669. PMID: 28528552

Selective extraction of semiconducting carbon nanotubes is a key step in the production of high-performance, solution-processed electronics. Here, we describe the ability of a supramolecular sorting polymer to selectively disperse...

16.

Intrinsically stretchable and healable semiconducting polymer for organic transistors

Oh J, Rondeau-Gagne S, Chiu Y, Chortos A, Lissel F, Wang G, et al.

Nature . 2016 Nov; 539(7629):411-415. PMID: 27853213

Thin-film field-effect transistors are essential elements of stretchable electronic devices for wearable electronics. All of the materials and components of such transistors need to be stretchable and mechanically robust. Although...

17.

Pursuing prosthetic electronic skin

Chortos A, Liu J, Bao Z

Nat Mater . 2016 Jul; 15(9):937-50. PMID: 27376685

Skin plays an important role in mediating our interactions with the world. Recreating the properties of skin using electronic devices could have profound implications for prosthetics and medicine. The pursuit...

18.

Stretchable Self-Healing Polymeric Dielectrics Cross-Linked Through Metal-Ligand Coordination

Rao Y, Chortos A, Pfattner R, Lissel F, Chiu Y, Feig V, et al.

J Am Chem Soc . 2016 Apr; 138(18):6020-7. PMID: 27099162

A self-healing dielectric elastomer is achieved by the incorporation of metal-ligand coordination as cross-linking sites in nonpolar polydimethylsiloxane (PDMS) polymers. The ligand is 2,2'-bipyridine-5,5'-dicarboxylic amide, while the metal salts investigated...

19.

A skin-inspired organic digital mechanoreceptor

Tee B, Chortos A, Berndt A, Nguyen A, Tom A, McGuire A, et al.

Science . 2015 Oct; 350(6258):313-6. PMID: 26472906

Human skin relies on cutaneous receptors that output digital signals for tactile sensing in which the intensity of stimulation is converted to a series of voltage pulses. We present a...

20.

A Sensitive and Biodegradable Pressure Sensor Array for Cardiovascular Monitoring

Boutry C, Nguyen A, Lawal Q, Chortos A, Rondeau-Gagne S, Bao Z

Adv Mater . 2015 Sep; 27(43):6954-61. PMID: 26418964

An array of highly sensitive pressure sensors entirely made of biodegradable materials is presented, designed as a single-use flexible patch for application in cardiovascular monitoring. The high sensitivity in combination...