Tushar K. Ghosh

Soft Functionally Gradient Materials and Structures – Natural and Manmade: A Review

Advanced Materials.

Bioinspired Structures for Soft Actuators

Wei, S., & Ghosh, T. K. (2022, April 26). ADVANCED MATERIALS TECHNOLOGIES, Vol. 4.

Voltage-tunable surface-enhanced Raman scattering substrates based on electroactive polymeric membranes containing plasmonic nanoparticles

OPTICS CONTINUUM, 1(12), 2426–2433.

Bioinspired Bistable Dielectric Elastomer Actuators: Programmable Shapes and Application as Binary Valves

Wei, S., & Ghosh, T. K. (2021, November 2). SOFT ROBOTICS, Vol. 11.

Melt-Extruded Sensory Fibers for Electronic Textiles

Tabor, J., Thompson, B., Agcayazi, T., Bozkurt, A., & Ghosh, T. K. (2021, December 26). MACROMOLECULAR MATERIALS AND ENGINEERING, Vol. 307.

Skin-Inspired Capacitive Stress Sensor with Large Dynamic Range via Bilayer Liquid Metal Elastomers

Yang, J., Kwon, K. Y., Kanetkar, S., Xing, R., Nithyanandam, P., Li, Y., … Dickey, M. D. (2021, November 17). ADVANCED MATERIALS TECHNOLOGIES, Vol. 11.

Textile-Based Pressure Sensors for Monitoring Prosthetic-Socket Interfaces

IEEE SENSORS JOURNAL, 21(7), 9413–9422.

Thermoelectric Materials for Textile Applications

[Review of ]. MOLECULES, 26(11).

3D Printing of Textiles: Potential Roadmap to Printing with Fibers

Advanced Materials, 32(4), 1902086.

Form-stable phase-change elastomer gels derived from thermoplastic elastomer copolyesters swollen with fatty acids

THERMOCHIMICA ACTA, 686.

Fully‐Textile Seam‐Line Sensors for Facile Textile Integration and Tunable Multi‐Modal Sensing of Pressure, Humidity, and Wetness

Advanced Materials Technologies, 6, 2000155.

In-Plane Thermoelectric Properties of Flexible and Room-Temperature-Doped Carbon Nanotube Films

ACS Applied Energy Materials, 3(7), 6929–6936.

Smart Textile‐Based Personal Thermal Comfort Systems: Current Status and Potential Solutions

Advanced Materials Technologies, 5(5), 1901155.

Ultrasoft Liquid Metal Elastomer Foams with Positive and Negative Piezopermittivity for Tactile Sensing

ADVANCED FUNCTIONAL MATERIALS, 30(36).

Bioinspired Bistable Soft Actuators

ELECTROACTIVE POLYMER ACTUATORS AND DEVICES (EAPAD) XXI, Vol. 10966.

Electrically Conductive Coatings for Fiber-Based E-Textiles

[Review of ]. FIBERS, 7(6).

Bioinspired Electrically Activated Soft Bistable Actuators

ADVANCED FUNCTIONAL MATERIALS, 28(35).

Bistable Polymer Actuators: Bioinspired Electrically Activated Soft Bistable Actuators (Adv. Funct. Mater. 35/2018)

Advanced Functional Materials, 28(35), 1870244.

Flexible Interconnects for Electronic Textiles

[Review of ]. ADVANCED MATERIALS TECHNOLOGIES, 3(10).

Influence of fiber characteristics on directed electroactuation of anisotropic dielectric electroactive polymers with tunability

Composites Science and Technology, 154, 187–193.

Toward Fully Manufacturable, Fiber Assembly-Based Concurrent Multimodal and Multifunctional Sensors for e-Textiles

Advanced Materials Technologies, 4(1), 1800281.

A Service Learning Collaborative to Build a Sustainable Enterprise for Underprivileged Women (SEuW)

Journal of Textile Design Research and Practice, 5(1), 3–16.

Enhanced anisotropic response of dielectric elastomer actuators with microcombed and etched carbon nanotube sheet electrodes

CARBON, 120, 366–373.

A finger touch force detection method for textile based capacitive tactile sensor arrays

2016 ieee sensors.

Sensing textile seam-line for wearable multimodal physiological monitoring

2016 38th annual international conference of the ieee engineering in medicine and biology society (embc), 311–314.

Soft, flexible 3D printed fibers for capacitive tactile sensing

2016 ieee sensors, 1–3.

Carbon nanotube sheet electrodes for anisotropic actuation of dielectric elastomers

CARBON, 89, 113–120.

Stretch, wrap, and relax to smartness

Science, 349(6246), 382–383.

Stretch-Triggered Drug Delivery from Wearable Elastomer Films Containing Therapeutic Depots

ACS NANO, 9(9), 9407–9415.

Enhanced Electroactive Response of Unidirectional Elastomeric Composites with High-Dielectric-Constant Fibers

ADVANCED MATERIALS, 26(18), 2949–2953.

Polymer Nanocomposites Containing Carbon Nanofibers as Soft Printable Sensors Exhibiting Strain-Reversible Piezoresistivity

ADVANCED FUNCTIONAL MATERIALS, 23(44), 5536–5542.

A compact dielectric elastomer tubular actuator for refreshable Braille displays

SENSORS AND ACTUATORS A-PHYSICAL, 179, 151–157.

Enhanced Biomimetic Performance of Ionic Polymer-Metal Composite Actuators Prepared with Nanostructured Block Ionomers

MACROMOLECULAR RAPID COMMUNICATIONS, 33(1), 61–68.

Macromol. Rapid Commun. 1/2012

Macromolecular Rapid Communications, 33(1), 100–100.

Prestrain-Free Dielectric Elastomers Based on Acrylic Thermoplastic Elastomer Gels: A Morphological and (Electro)Mechanical Property Study

ADVANCED FUNCTIONAL MATERIALS, 22(10), 2100–2113.

(Electro)mechanical behavior of selectively solvated diblock/triblock copolymer blends

APPLIED PHYSICS LETTERS, 99(24).

Biomimicry in textiles: past, present and potential. An overview

[Review of ]. JOURNAL OF THE ROYAL SOCIETY INTERFACE, 8(59), 761–775.

Electroactuation of Solvated Triblock Copolymer Dielectric Elastomers: Decoupling the Roles of Mechanical Prestrain and Specimen Thickness

JOURNAL OF POLYMER SCIENCE PART B-POLYMER PHYSICS, 49(22), 1569–1582.

Exceptional versatility of solvated block copolymer/ionomer networks as electroactive polymers

SOFT MATTER, 7(5), 1651–1655.

Mechanical and actuation behavior of electroactive nanostructured polymers

SENSORS AND ACTUATORS A-PHYSICAL, 151(1), 46–52.

Fabric and yarn structures for improving signal integrity in fabric-based electrical circuits

Washington, DC: U.S. Patent and Trademark Office.

Methods and systems for selectively connecting and disconnecting conductors in a fabric

Washington, DC: U.S. Patent and Trademark Office.

Triblock copolymer organogels as high-performance dielectric elastomers

MACROMOLECULES, 41(16), 6100–6109.

Dielectric elastomer based prototype fiber actuators

SENSORS AND ACTUATORS A-PHYSICAL, 136(1), 321–328.

Dielectric elastomers as next-generation polymeric actuators

[Review of ]. SOFT MATTER, 3(9), 1116–1129.

Dynamic analysis of unwinding yarn from cylindrical packages, part III: The three-region model revisited

Textile Research Journal, 77.

Electrical and mechanical properties of carbon-black-filled, electrospun nanocomposite fiber webs

JOURNAL OF APPLIED POLYMER SCIENCE, 104(4), 2410–2417.

Electroactive nanostructured polymers as tunable actuators

ADVANCED MATERIALS, 19(17), 2218-+.

Electromechanical response of nanostructured polymer systems with no mechanical pre-strain

MACROMOLECULAR RAPID COMMUNICATIONS, 28(10), 1142–1147.

Field-driven biofunctionalization of polymer fiber surfaces during electrospinning

ADVANCED MATERIALS, 19(1), 87-+.

Inside Front Cover: Field-Driven Biofunctionalization of Polymer Fiber Surfaces during Electrospinning (Adv. Mater. 1/2007)

Advanced Materials, 19(1), NA-NA.

Electronic textiles and their potential

Indian Journal of Fibre & Textile Research, 30(1).

Electronic textiles today and potential for the future

Proceedings of International Conference on Emerging Trends in Polymers and Textiles : 7th, 8th January 2005. New Delhi.

Engineering with fibers (industry): Implications for education

Proceedings of International Conference on Emerging Trends in Polymers and Textiles : 7th, 8th January 2005. New Delhi.

Methods and systems for selectively connecting and disconnecting conductors in a fabric

Washington, DC: U.S. Patent and Trademark Office.

Stress relaxation of tufted carpets and carpet components: Analysis of the tufted carpet structure

TEXTILE RESEARCH JOURNAL, 75(6), 485–491.

FIBER-BASED ELECTRICAL AND OPTICAL DEVICES AND SYSTEMS

Textile Progress, 36(2-3), 1–84.

Fiber-based electrical devices

Textile Progress, 36(2/3).

Woven fabric-based electrical circuits - Part I: Evaluating interconnect methods

Textile Research Journal, 74(10), 913–919.

Woven fabric-based electrical circuits - Part II: Yarn and fabric structures to reduce crosstalk noise in woven fabric-based circuits

TEXTILE RESEARCH JOURNAL, 74(11), 955–960.

Adsorbent for HC in exhaust gas, and process for producing the same

Washington, DC: U.S. Patent and Trademark Office.

Characterization of fabric bending behavior: A review of measurement principles

Indian Journal of Fibre & Textile Research, 28(4), 471–476.

Developing portable acoustic arrays on a large-scale e-textile substrate

INTEDEC 2003: fibrous assemblies at the design and engineering interface. [Edinburgh]: RIFleX, Heriot-Watt University.

Forming shaped/molded structures by integrating meltblowing and robotic technologies

TEXTILE RESEARCH JOURNAL, 73(1), 15–21.

Meltblown structures formed by a robotic and meltblowing integrated system: Impact of process parameters on pore size

TEXTILE RESEARCH JOURNAL, 73(11), 971–979.

Process for elimination of low concentrations of hydrogen sulfide in gas mixtures by catalytic oxidation

Washington, DC: U.S. Patent and Trademark Office.

Study of meltblown structures formed by robotic and meltblowing integrated system: Impact of process parameters on fiber diameter distribution

International Nonwovens Journal, 12(1), 36–42.

The technology of polypropylene tape yarn processing and applications

Textile Progress, 33(1).

Apparatus and method for biaxial tensile testing of membrane materials

Washington, DC: U.S. Patent and Trademark Office.

Apparel sizing and fit

Textile Progress, 32(1).

Meltblown structures formed by a robotic and meltblowing integrated system: Impact of process parameters on fiber orientation and diameter distribution

TEXTILE RESEARCH JOURNAL, 72(12), 1033–1040.

Online characterization of fabric compressional behavior

TEXTILE RESEARCH JOURNAL, 72(2), 103–112.

Dynamic analysis of yarn unwinding from cylindrical packages - Part 1: Parametric studies of the two-region problem

TEXTILE RESEARCH JOURNAL, 71(9), 771–778.

Dynamic analysis of yarn unwinding from cylindrical packages - Part II: The three-region analysis

TEXTILE RESEARCH JOURNAL, 71(10), 855–861.

Formation of shaped/molded meltblowing nonwoven structures

Journal of Textile and Apparel Technology and Management, 1(1).

Formation of shaped/molded structures meltblowing nonwoven structures

Journal of Textile and Apparel Technology and Management, 1(1).

A comparison of tensile and puncture properties of nonwoven fabrics

Journal of the Korean Fiber Society, 37(2), 103–110.

A rule-based robotic control approach to melt-blowing for shaped fabric structures

ISCAS 2000 Geneva : proceedings [of] the 2000 IEEE International Symposium on Circuits and Systems, Emerging technologies for the 21st century : May 28-31, 2000, International Conference Center (CICG) of Geneva, Switzerland.

Dynamic analysis of ring spinning: A brief review

Vlakna A Textil, 7(2), 57–64.

Instrumentation of online monitoring system for fabric compressional behavior

Proceedings of the 46th International Instrumentation Symposium : presented at: Doubletree Hotel, Bellevue, Washington, 30 April - 5 May 2000, 457–465. Research Triangle Park, N.C.: Instrument Society of America.

Managing textile waste

Ars Textrina, 33, 87–105.

On the use of robotics for melt-blowing to form shaped/molded fabric structures

Proceedings : 2000 IEEE International Conference on Robotics and Automation April 24-28, 2000, San Francisco Hilton Hotel, San Francisco, California.

Sizing and fit testing

Papers presented at the 80th World Conference of the Textile Institute, April 2000. Manchester, England: Textile Institute.

Weaving technology for the new millenium

Textile Technology International, 37.

Development and evaluation of a biaxial tensile tester for fabrics

Journal of Testing and Evaluation, 27(4), 282–289.

Modeling and structural analysis of the bending rigidity of nonwoven fabrics

Journal of the Korean Fiber Society, 36(6), 455–462.

On-line measurement of fabric bending behavior Part III: Dynamic considerations and experimental implementation

Textile Research Journal, 69(3), 176–184.

Online measurement of fabric mechanical properties: Compressional behavior

IEEE ... Annual Textile, Fiber, and Film Industry Technical Conference, (1999), 1–5.

Development of an instrument for the evaluation of biaxial stress-strain response of fabrics

Book of papers : INDA-TEC 98, largest International Nonwovens Conference : September 15-17, 1998, Trump Plaza Hotel, Atlantic City, NJ. Cary, NC: INDA, Association of the Nonwoven Fabrics Industry.

On-line measurement of fabric bending behavior Part II: Effects of fabric nonlinear bending behavior

Textile Research Journal, 68(7), 533–542.

On-line measurement of fabric bending behavior: background, need and potential solutions

International Journal of Clothing Science and Technology, 10(2), 143–154.

Puncture resistance of pre-strained geotextile membrane and its relation to uniaxial tensile strain at failure

Geotextiles and Geomembranes, 16, 293–302.

On-line measurement of fabric bending behavior .1. Theoretical study of static fabric loops

TEXTILE RESEARCH JOURNAL, 67(10), 712–719.

The effect of a control ring on the stability of the ring-spinning balloon

PROCEEDINGS OF THE ROYAL SOCIETY A-MATHEMATICAL PHYSICAL AND ENGINEERING SCIENCES, 452(1944), 47–62.

AN INTEGRATED APPROACH TO DYNAMIC ANALYSIS OF THE RING SPINNING PROCESS .4. INHERENT INSTABILITY OF THE FREE BALLOON

TEXTILE RESEARCH JOURNAL, 65(7), 417–423.

ANALYSIS OF FABRIC DEFORMATION IN A ROLL-MAKING OPERATION .4. EFFECT OF VARYING WINDING TENSION

TEXTILE RESEARCH JOURNAL, 65(12), 739–747.

Application of FAST system in nonwovens, part I: Objective evaluation of fabric performance

International Nonwovens Journal, 5(2), 31–38.

Application of FAST system in nonwovens, part II: Developing tailorability control charts for nonwoven medical apparel applications

International Nonwovens Journal, 7(2), 39–48.

Dynamic analysis of unwinding

Proceedings of the eighth annual Cotton Incorporated Engineered Fiber Selection System Conference: June 12-14, 1995. [Raleigh, N.C.]: Cotton Inc.

Application of FAST system in nonwovens, objective evaluation of fabric performance: Fingerprint limits for SMS category

INDA-TEC 94: book of papers ; Nonwovens technologies for disposable and durable applications. Cary, NC : INDA, Association of the Nonwoven Fabrics Industry.

ANALYSIS OF FABRIC DEFORMATION IN A ROLL-MAKING OPERATION

TEXTILE RESEARCH JOURNAL, 62(11), 669–676.

ON UNWINDING YARN FROM A CYLINDRICAL PACKAGE

PROCEEDINGS OF THE ROYAL SOCIETY-MATHEMATICAL AND PHYSICAL SCIENCES, 436(1898), 479–498.

ANALYSIS OF FABRIC DEFORMATION IN A ROLL-MAKING OPERATION

TEXTILE RESEARCH JOURNAL, 61(3), 153–161.

ANALYSIS OF FABRIC DEFORMATION IN A ROLL-MAKING OPERATION .2. A DYNAMIC CASE

TEXTILE RESEARCH JOURNAL, 61(4), 185–192.

An integrated approach to dynamic analysis of the ring spinning process: A progress report

Textile science 91: international conference: proceedings: Liberec, September 16-18, 1991. Praha: Nakladatelske? druz?stvo Informatorium.

THE BENDING BEHAVIOR OF PLAIN-WOVEN FABRICS .1. A CRITICAL-REVIEW

[Review of ]. JOURNAL OF THE TEXTILE INSTITUTE, 81(3), 245–254.

THE BENDING BEHAVIOR OF PLAIN-WOVEN FABRICS .2. THE CASE OF LINEAR THREAD-BENDING BEHAVIOR

JOURNAL OF THE TEXTILE INSTITUTE, 81(3), 255–271.

THE BENDING BEHAVIOR OF PLAIN-WOVEN FABRICS .3. THE CASE OF BILINEAR THREAD-BENDING BEHAVIOR AND THE EFFECT OF FABRIC SET

JOURNAL OF THE TEXTILE INSTITUTE, 81(3), 272–287.

AN INTEGRATED APPROACH TO DYNAMIC ANALYSIS OF THE RING SPINNING PROCESS .1. WITHOUT AIR DRAG AND CORIOLIS ACCELERATION

TEXTILE RESEARCH JOURNAL, 59(6), 309–317.

AN INTEGRATED APPROACH TO DYNAMIC ANALYSIS OF THE RING SPINNING PROCESS .2. WITH AIR DRAG

TEXTILE RESEARCH JOURNAL, 59(7), 416–424.

On the dynamic analysis of yarn in ring spinning

In E. J. W. G.A. Carnaby & L. F. Story (Eds.), The Application of mathematics and physics in the wool industry: proceedings of an advenced workshop held at Lincoln College, Canterbury, New Zealand on 9-12 February 1988. Christchurch, N.Z.: WRONZ.

Thermal protective performance of PBI and aramid fabrics: Measuring the effects of mechanical stress

Journal of Industrial Fabrics, 4(4).

A novel method of spinning Jute yarns for decoratives

Textile Research Journal, 52(6), 418.