Lamellar morphology and inner structure of crystalline carbyne fragemnts

## Abstract **Summary:** Solution‐grown, chain‐folded lamellar crystals of poly(16‐hexadecalactone) (PHDL) were crystallized isothermally from 1‐hexanol at 70 °C. The morphology of lozenge‐shaped crystals was studied by TEM and AFM. The lamellae are ca. 10 nm thick and the chains run orthogonal to

A detailed electron microscopy study of the structure and morphology of lamellar crystals of nylon 46 obtained by crystallization from solution has been carried out. Electron diffraction of crystals supported by X-ray diffraction of their sediments revealed that they consist of a twinned crystal lat

In this work, an impact copolymer polypropylene (ICPP) was separated into 4 fractions, A, B, C, and D. The phase structure, thermal behavior, and crystalline morphology of the ICPP and its 4 fractions were studied thoroughly using scanning electron microscopy (SEM). Dynamic mechanical analysis (DMA)

Mechanical alloying and heat treatment have been used to prepare amorphous and crystalline Ti-50 at % Ni alloys. Changes of the structure, morphology and hydrogen desorption characteristics of Ti-Ni alloys were investigated. The results of X-ray diffraction (XRD), transmission electron microscopy (T

Chain-folded lamellar crystals of nylon 2 4 have been prepared from dilute solution by addition of poor solvent. Two crystal structures are observed at room temperature: a monoclinic form I, precipitated at elevated temperature, and a lessdefined, orthorhombic form II, precipitated at room temperatu