Results 121 to 130 of about 117,258 (341)
Keep pace with one ofindustry's oldest and newest chemical products [PDF]
, 1956 openalex +1 more source
Organic Ferroelectric Synaptic Transistors for Neural Image Recognition Networks
Advanced Materials Interfaces, EarlyView.All organic transistors, where both the dielectric and semiconducting layers are polymeric, are developed as electrical synaptic devices. Two copolymers of PVDF as the dielectric layer with large differences in their saturation polarizability and memory window are chosen.
Evan Restuccia +2 more
wiley +1 more source
Clinical Use of Atrial Pacing Test in Angina Pectoris [PDF]
, 1968 R Balcon, William C. Maloy, E Sowton
openalex +1 more source
Advanced Materials Technologies, EarlyView.The robust electrochemical sustainability of additively manufactured high‐performance nanocomposites is substantially dependent on overcoming material selection, process optimization, operational scalability, and design flexibility challenges. Integrating transition metal dichalcogenides into metal‐matrix composites, laser powder bed fusion directly ...
Navid Alinejadian +3 more
wiley +1 more source
Endocardial pacing: a percutaneous method using the subclavian vein. [PDF]
, 1969 C W Vellani, G Tildesley, L. G. Davies
openalex +1 more source
Flexible 3D‐Printed Cellulosic Constructs for EMI Shielding and Piezoresistive Sensing
Advanced Materials Technologies, EarlyView.This study presents a method for fabricating lightweight, conductive, and compressible 3D‐printed structures from CNFs. By using ion‐seeded 3D printing and cold chemical vapor polymerization, PEDOT/CNF frameworks with electrical conductivity and compressibility are produced.
Majed Amini +6 more
wiley +1 more source
Transesophageal Electrophysiological Study in Management of Pediatric tachyarrhythmias
Indian Pacing and Electrophysiology Journal, 2022 A. Manickavasagam +4 more
doaj
Direct‐Write Printing of Multicolor Electroluminescent Films for Stretchable Display
Advanced Materials Technologies, EarlyView.This work presents a mask‐free, fully printable alternating‐current electroluminescent (PACE) film using a direct‐write printing strategy. The multicolor PACE film, available in blue, green, and orange, reaches a thickness of ≈150 µm and achieves 180 cd m⁻2 at 6 V µm⁻¹.
Tianhao Yu +4 more
wiley +1 more source