1 |
|
|
2 |
< |
%% Created for Charles Vardeman at 2007-10-09 20:25:59 -0400 |
2 |
> |
%% Created for Charles Vardeman at 2007-10-10 18:17:53 -0400 |
3 |
|
|
4 |
|
|
5 |
|
%% Saved with string encoding Western (ASCII) |
6 |
|
|
7 |
|
|
8 |
|
|
9 |
+ |
@article{JACKSON:1991lr, |
10 |
+ |
Abstract = {The glass-transition temperatures, T(g), of organic liquids confined to small pores were studied by differential scanning calorimetry (DSC). The T(g) was measured as a function of pore size in controlled pore glasses (CPG) having pore diameters in the range of 40-730 angstrom. The surface of the glass was treated with hexamethyldisilazane to promote wetting by the organic liquids studied (o-terphenyl and benzyl alcohol). Glasses formed in the pores had a lower T(g) than in the bulk and the reduction in T(g) increased as the pore size decreased. For example, the depression of the glass transition temperature, DELTA-T(g), of benzyl alcohol in 40 angstrom and 85 angstrom pores was 7.2 K and 3.1 K, respectively. The magnitude of DELTA-T(g) also depends on the material; e.g. for o-terphenyl in the 85 angstrom pores, DELTA-T(g) was 8.8 K versus 3.1 K for benzyl alcohol. In general, it was noted that DELTA-T(g) was considerably less than for the depression of the crystalline melting point, DELTA-T(m), studied in related work. For example, for benzyl alcohol in the 85 angstrom pores, DELTA-T(m) was approximately 25 K and DELTA-T(g) was approximately 3 K.}, |
11 |
+ |
Author = {JACKSON, CL and MCKENNA, GB}, |
12 |
+ |
Date-Added = {2007-10-10 15:15:02 -0400}, |
13 |
+ |
Date-Modified = {2007-10-10 15:15:05 -0400}, |
14 |
+ |
Journal = {Journal of Non-Crystalline Solids}, |
15 |
+ |
Pages = {221-224}, |
16 |
+ |
Title = {THE GLASS-TRANSITION OF ORGANIC LIQUIDS CONFINED TO SMALL PORES}, |
17 |
+ |
Volume = {131}, |
18 |
+ |
Year = {1991}} |
19 |
+ |
|
20 |
|
@book{Massalski:1986rt, |
21 |
< |
Address = {Metals Park, Ohio }, |
21 |
> |
Address = {Metals Park, Ohio}, |
22 |
|
Annote = {LDR 01406cam 2200349 a 4500 |
23 |
|
001 3824145 |
24 |
|
005 20041216124017.0 |
54 |
|
Date-Modified = {2007-10-09 19:13:18 -0400}, |
55 |
|
Dewey-Call-Number = {669/.94}, |
56 |
|
Genre = {Alloys}, |
57 |
< |
Isbn = {0871702614 (set) }, |
57 |
> |
Isbn = {0871702614 (set)}, |
58 |
|
Library-Id = {86017350}, |
59 |
|
Publisher = {American Society for Metals}, |
60 |
< |
Title = {Binary alloy phase diagrams }, |
60 |
> |
Title = {Binary alloy phase diagrams}, |
61 |
|
Year = {1986}} |
62 |
|
|
63 |
|
@article{Ojovan:2006vn, |
133 |
|
Year = {2003}} |
134 |
|
|
135 |
|
@book{Mazurin:1993lr, |
136 |
< |
Address = {Amsterdam }, |
136 |
> |
Address = {Amsterdam}, |
137 |
|
Annote = {LDR 01412cam 2200253 a 4500 |
138 |
|
001 4714430 |
139 |
|
005 19931007093932.9 |
161 |
|
Date-Modified = {2007-10-09 18:02:10 -0400}, |
162 |
|
Dewey-Call-Number = {620.1/44/0212}, |
163 |
|
Genre = {Glass}, |
164 |
< |
Isbn = {0444416897 (U.S. : set) }, |
164 |
> |
Isbn = {0444416897 (U.S. : set)}, |
165 |
|
Library-Id = {83011642}, |
166 |
< |
Publisher = {Elsevier }, |
166 |
> |
Publisher = {Elsevier}, |
167 |
|
Title = {Handbook of glass data}, |
168 |
|
Volume = {15}, |
169 |
|
Year = {1993}} |
2460 |
|
<key>group name</key> |
2461 |
|
<string>Glass-Melting Transition</string> |
2462 |
|
<key>keys</key> |
2463 |
< |
<string>HUNT:1994fj,Wang:2003fk,Alcoutlabi:2005kx,HUNT:1992uq,Jiang:1999yq,Ojovan:2006vn</string> |
2463 |
> |
<string>HUNT:1994fj,Wang:2003fk,Alcoutlabi:2005kx,JACKSON:1991lr,HUNT:1992uq,Jiang:1999yq,Ojovan:2006vn</string> |
2464 |
|
</dict> |
2465 |
|
<dict> |
2466 |
|
<key>group name</key> |
2508 |
|
<key>group name</key> |
2509 |
|
<string>Pair Analysis</string> |
2510 |
|
<key>keys</key> |
2511 |
< |
<string>Miracle:2006qy,Iwamatsu:2007lr,HoneycuttJ.Dana_j100303a014,PhysRevLett.60.2295</string> |
2511 |
> |
<string>PhysRevLett.60.2295,Iwamatsu:2007lr,HoneycuttJ.Dana_j100303a014,Miracle:2006qy</string> |
2512 |
|
</dict> |
2513 |
|
<dict> |
2514 |
|
<key>group name</key> |