Ultra‐thin flexible encapsulating materials for soft bio‐integrated electronics
Recently, bioelectronic devices extensively researched and developed through the
convergence of flexible biocompatible materials and electronics design that enables more …
convergence of flexible biocompatible materials and electronics design that enables more …
Low density and high strength nanofibrillated cellulose aerogel for thermal insulation application
Low density and high strength nanofibrillated cellulose aerogel based on pinewood were
prepared by the freeze-drying method. The study was focused to reduce the thermal …
prepared by the freeze-drying method. The study was focused to reduce the thermal …
Design and synthesis of polymer nanocomposites
Polymer nanocomposites are probably the most versatile materials today. They do not only
possess excellent properties but can also be made to exhibit combination of properties for …
possess excellent properties but can also be made to exhibit combination of properties for …
Advances in sweat wearables: sample extraction, real-time biosensing, and flexible platforms
L Qiao, MR Benzigar, JA Subramony… - … applied materials & …, 2020 - ACS Publications
Wearable biosensors for sweat-based analysis are gaining wide attention due to their
potential use in personal health monitoring. Flexible wearable devices enable sweat …
potential use in personal health monitoring. Flexible wearable devices enable sweat …
Photochromic Carbon Nanomaterials: An Emerging Class of Light‐Driven Hybrid Functional Materials
The introduction of photochromism into nanosystems has resulted in the development of a
class of light‐driven functional hybrid nanomaterials. Photochromic molecules have …
class of light‐driven functional hybrid nanomaterials. Photochromic molecules have …
Tough, transparent, biocompatible and stretchable thermoplastic copolymer with high stability and processability for soft electronics
Materials with a variety of required properties, including stretchability, toughness, optical
transparency, biocompatibility, processability, and recyclability are in great demand for soft …
transparency, biocompatibility, processability, and recyclability are in great demand for soft …
Ethylene scavenging film based on corn starch-gum acacia impregnated with sepiolite clay and its effect on quality of fresh broccoli florets
Ethylene scavenging film based on corn starch (CS) and gum acacia (GA) nanocomposite
film impregnated with sepiolite (SP) was fabricated by the casting method and characterized …
film impregnated with sepiolite (SP) was fabricated by the casting method and characterized …
Flame retardant and thermally insulating clay based aerogel facilitated by cellulose nanofibers
In this paper, flame retardancy and thermal insulating properties of sepiolite clay and
cellulose nanofibers based aerogel has been discussed. Due to the fragile characteristic of …
cellulose nanofibers based aerogel has been discussed. Due to the fragile characteristic of …
Experimental investigations into additive manufacturing of styrene-ethylene-butylene-styrene block copolymers using solvent cast 3D printing technique
Purpose This paper aims to discuss the successful 3D printing of styrene–ethylene–butylene–
styrene (SEBS) block copolymers using solvent-cast 3D printing (SC-3DP) technique …
styrene (SEBS) block copolymers using solvent-cast 3D printing (SC-3DP) technique …
Shelf-life, bioburden, water and oxygen permeability studies of laser welded SEBS/PP blended polymer
The most common material used for blood bags is PVC, which requires the addition of
DEHP to increase its flexibility. DEHP is known to cross the polymer barrier and move into …
DEHP to increase its flexibility. DEHP is known to cross the polymer barrier and move into …