wear" suitsâan outlet for man-made fibers as well as resin finishesâgrew from 25,000 in 1954 to an estimated. 1,200,000 in 1956. These are just a few of the ...
(3) Campbell, K. S., and Sands, J. E., Ibid., 2,462,803 (Feb. 22,. 1949). (4) Carroll, S. J., Ibid., 1,631,468 (June 7, 1927). (5) Cuppery, . E.,Ibid., 2,212,152 (Aug.
Boller, E. R., U. 9. Patent 2,097,509 (Nov. 2, 1937). Campbell, K. S., and Sands, J. E., Ibid., 2,462,803 (Feb. 22,. Carroll, S. J., Ibid., 1,631,468 (June 7, 1927).
Jan 23, 2018 - Herein, we develop a promising electrode architecture that contains carbon textiles uniformly covered with NiCo2âxFexO4 nanotubes, which are directly used as electrode materials in energy storage devices through a simple and feasible
Jan 23, 2018 - Facile Synthesis of NiCo2-xFexO4 Nanotubes/Carbon Textiles Composites for High-performance Electrochemical Energy Storage Devices. Zhaohui Liu, Longqiang Wang, Yufeng Cheng, Xiangyang Cheng, Bo Lin, Longfei Yue, and Shougang Chen. ACS
Jan 23, 2018 - The use of advanced pseudocapacitive electrode for improved energy density of supercapacitors has been given much attention recently. Herein, we develop a promising electrode architecture that contains carbon textiles uniformly covered
27, 1949). (1950). 186 (Feb. 29,1944). (Oct. 26,1948). Leatherman, E. W., Ibid., 2,463,983 (March 8,1949). Lindsav. W. G., Ibid., 1,133,385 (March 30, 1915).
of cement. M. Baud, the discoverer of the new method, carries out the reaction between gypsum and ammonia under a pressure of about one atmosphere in the.
Retarding Changes in Turpentine during. Storage. W. C. Smith and . P. Holman, Bureau of Chemistry and Soils, Washington, D. C. THE marked tendency of.
Hugh C. Gulledge, George R. Seidel. Ind. Eng. Chem. , 1950, 42 (3), ... Isao Shiihara , Willis T. Schwartz , Jr. , and Howard W. Post. Chemical Reviews 1961 61 ...
OF TEXTILES q$neeriq Chemistry at the 116th Me& y, September 1949, Atlantic City, N. J.
