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1. (hist) ‎Eric Drexler's blog partially dug up from the Internet Archive ‎[60,873 bytes]
2. (hist) ‎Sitemap ‎[40,479 bytes]
3. (hist) ‎Nanofabrik (potental version for german wikipedia) ‎[30,845 bytes]
4. (hist) ‎Annotated lambda diagram ‎[28,000 bytes]
5. (hist) ‎Common misconceptions about atomically precise manufacturing ‎[25,564 bytes]
6. (hist) ‎Friction in gem-gum technology ‎[25,441 bytes]
7. (hist) ‎Exploratory engineering ‎[25,179 bytes]
8. (hist) ‎Grey goo horror fable ‎[24,276 bytes]
9. (hist) ‎Venus ‎[23,685 bytes]
10. (hist) ‎Scaling law ‎[22,996 bytes]
11. (hist) ‎RepRec pick-and-place robots (RepRap) ‎[22,851 bytes]
12. (hist) ‎Gemstone-like compound ‎[22,133 bytes]
13. (hist) ‎Introduction of total positional control ‎[21,921 bytes]
14. (hist) ‎Annotated lambda diagram mockups ‎[21,634 bytes]
15. (hist) ‎The nature and shape of atoms ‎[21,141 bytes]
16. (hist) ‎Mechanosynthesis ‎[19,888 bytes]
17. (hist) ‎Mechanical energy transmission ‎[19,108 bytes]
18. (hist) ‎Applicability of macro 3D printing for nanomachine prototyping ‎[18,998 bytes]
19. (hist) ‎Direct path ‎[18,862 bytes]
20. (hist) ‎Mechadense's Wiki about Atomically Precise Manufacturing ‎[18,750 bytes]
21. (hist) ‎Useful math ‎[18,738 bytes]
22. (hist) ‎Productive Nanosystems From molecules to superproducts ‎[18,611 bytes]
23. (hist) ‎Quantum mechanics ‎[18,325 bytes]
24. (hist) ‎Gemstone metamaterial on chip factory ‎[18,035 bytes]
25. (hist) ‎Higher throughput of smaller machinery ‎[17,977 bytes]
26. (hist) ‎Base materials with high potential ‎[17,818 bytes]
27. (hist) ‎Self replication ‎[17,638 bytes]
28. (hist) ‎Dangers ‎[17,464 bytes]
29. (hist) ‎Data decompression chain ‎[17,450 bytes]
30. (hist) ‎Colonization of the solar system ‎[17,031 bytes]
31. (hist) ‎Advanced productive nanosystem ‎[16,802 bytes]
32. (hist) ‎Atmospheric mesh ‎[16,776 bytes]
33. (hist) ‎The program of all programs (code generating code) ‎[16,209 bytes]
34. (hist) ‎Abundant element ‎[15,596 bytes]
35. (hist) ‎Binary gem-like compound ‎[15,566 bytes]
36. (hist) ‎Microcomponent ‎[15,474 bytes]
37. (hist) ‎Crystolecular unit ‎[14,900 bytes]
38. (hist) ‎The purpose of dreams ‎[14,765 bytes]
39. (hist) ‎Emulated elasticity ‎[14,682 bytes]
40. (hist) ‎Examples of diamondoid molecular machine elements ‎[14,521 bytes]
41. (hist) ‎Convergent assembly ‎[14,511 bytes]
42. (hist) ‎Incremental path ‎[14,283 bytes]
43. (hist) ‎Metamaterial ‎[14,092 bytes]
44. (hist) ‎Optimal sublayernumber for minimal friction ‎[13,960 bytes]
45. (hist) ‎Superlubricity ‎[13,772 bytes]
46. (hist) ‎Constructive solid geometry ‎[13,725 bytes]
47. (hist) ‎Electromechanical converter ‎[13,678 bytes]
48. (hist) ‎Salts of oxoacids ‎[13,628 bytes]
49. (hist) ‎Safety towards and with gem based APM ‎[13,571 bytes]
50. (hist) ‎Reasons for APM ‎[13,290 bytes]
51. (hist) ‎Sulfur ‎[13,167 bytes]
52. (hist) ‎Scanning probe microscopy ‎[13,164 bytes]
53. (hist) ‎Gemstone based metamaterial ‎[13,037 bytes]
54. (hist) ‎Assembly level 4 (gem-gum factory) ‎[12,930 bytes]
55. (hist) ‎Present-forward development ‎[12,653 bytes]
56. (hist) ‎Self repairing system ‎[12,544 bytes]
57. (hist) ‎Atomic orbitals ‎[12,465 bytes]
58. (hist) ‎Soft-core macrorobots with hard-core nanomachinery ‎[12,431 bytes]
59. (hist) ‎Assembly levels ‎[12,378 bytes]
60. (hist) ‎Ternary and higher gem-like compounds ‎[12,363 bytes]
61. (hist) ‎Recycling ‎[12,298 bytes]
62. (hist) ‎Design of gem-gum on-chip factories ‎[12,197 bytes]
63. (hist) ‎Purely functional programming ‎[11,925 bytes]
64. (hist) ‎Assembly layer ‎[11,907 bytes]
65. (hist) ‎Titan (giant moon) ‎[11,737 bytes]
66. (hist) ‎Experimental demonstrations of single atom manipulation ‎[11,666 bytes]
67. (hist) ‎Levitation ‎[11,656 bytes]
68. (hist) ‎RepRec pick-and-place robots (GemGum) ‎[11,577 bytes]
69. (hist) ‎Global scale energy management ‎[11,568 bytes]
70. (hist) ‎Why ultra-compact molecular assemblers are too inefficient ‎[11,537 bytes]
71. (hist) ‎Synthesis of food ‎[11,500 bytes]
72. (hist) ‎Ceres ‎[11,327 bytes]
73. (hist) ‎Big bang as spontaneous demixing event ‎[11,068 bytes]
74. (hist) ‎Connection method ‎[10,937 bytes]
75. (hist) ‎Molecular assembler (disambiguation) ‎[10,830 bytes]
76. (hist) ‎Logs ‎[10,792 bytes]
77. (hist) ‎Design levels ‎[10,786 bytes]
78. (hist) ‎Mechanosynthesis core ‎[10,764 bytes]
79. (hist) ‎Poison ‎[10,664 bytes]
80. (hist) ‎Gem-gum suit ‎[10,565 bytes]
81. (hist) ‎Piezochemical mechanosynthesis ‎[10,485 bytes]
82. (hist) ‎Mechandense's Wiki über atomar präzise Herstellung ‎[10,437 bytes]
83. (hist) ‎Transhumanism ‎[10,429 bytes]
84. (hist) ‎Robust vacuum balloon metamaterial ‎[10,427 bytes]
85. (hist) ‎Math of convergent assembly ‎[10,371 bytes]
86. (hist) ‎Gemstone-like molecular element ‎[10,368 bytes]
87. (hist) ‎General software issues ‎[10,288 bytes]
88. (hist) ‎Tensioning mechanism design ‎[10,205 bytes]
89. (hist) ‎Isotope separation ‎[10,204 bytes]
90. (hist) ‎Global microcomponent redistribution system ‎[10,119 bytes]
91. (hist) ‎Titanium ‎[10,044 bytes]
92. (hist) ‎Products of gem-gum-tec ‎[9,882 bytes]
93. (hist) ‎Chemomechanical converter ‎[9,873 bytes]
94. (hist) ‎Nanosystems ‎[9,852 bytes]
95. (hist) ‎Thermally driven self assembly ‎[9,831 bytes]
96. (hist) ‎Challenges in the visualization of gem-gum factories ‎[9,824 bytes]
97. (hist) ‎Diamondoid heat pump system ‎[9,785 bytes]
98. (hist) ‎Colonization of asteroids ‎[9,774 bytes]
99. (hist) ‎Diamondoid ‎[9,762 bytes]
100. (hist) ‎Common critique towards diamondoid atomically precise manufacturing and technology ‎[9,710 bytes]
101. (hist) ‎Design of crystolecules ‎[9,590 bytes]
102. (hist) ‎Digital control over reversibly composable units of matter ‎[9,347 bytes]
103. (hist) ‎Suitable mechanisms ‎[9,313 bytes]
104. (hist) ‎Resource molecule ‎[9,256 bytes]
105. (hist) ‎How small scale friction shapes advanced transport ‎[9,254 bytes]
106. (hist) ‎Utility fog ‎[9,248 bytes]
107. (hist) ‎Oddball compound ‎[9,178 bytes]
108. (hist) ‎Nuclear fusion ‎[9,102 bytes]
109. (hist) ‎Upgraded street infrastructure ‎[9,044 bytes]
110. (hist) ‎Systematic listing of all possible programs ‎[9,017 bytes]
111. (hist) ‎Intuitive feel ‎[9,012 bytes]
112. (hist) ‎Underground working ‎[8,994 bytes]
113. (hist) ‎Reproduction hexagon ‎[8,930 bytes]
114. (hist) ‎Gas giant atmospheres ‎[8,882 bytes]
115. (hist) ‎Machine phase ‎[8,876 bytes]
116. (hist) ‎On the particle wave duality ‎[8,849 bytes]
117. (hist) ‎The basics of atoms ‎[8,838 bytes]
118. (hist) ‎APM related terms ‎[8,789 bytes]
119. (hist) ‎The speed of nanorobotics ‎[8,757 bytes]
120. (hist) ‎APM and nuclear technology ‎[8,757 bytes]
121. (hist) ‎Construction kit analogy for the periodic table of elements ‎[8,644 bytes]
122. (hist) ‎A true but useless theory of everything ‎[8,641 bytes]
123. (hist) ‎S-block metals ‎[8,637 bytes]
124. (hist) ‎Engines of Creation ‎[8,597 bytes]
125. (hist) ‎Stiff cantilever AFM ‎[8,528 bytes]
126. (hist) ‎General Introduction to atomically precise manufacturing ‎[8,488 bytes]
127. (hist) ‎Refractory material ‎[8,401 bytes]
128. (hist) ‎Gem-gum technology ‎[8,381 bytes]
129. (hist) ‎Organometallic gemstone-like compound ‎[8,324 bytes]
130. (hist) ‎Reversible computation ‎[8,215 bytes]
131. (hist) ‎Chemical synthesis ‎[8,205 bytes]
132. (hist) ‎Early diamondoid nanosystem pixel (direct path) ‎[8,152 bytes]
133. (hist) ‎Limits of construction kit analogy ‎[8,116 bytes]
134. (hist) ‎Syngraphic sugar ‎[8,111 bytes]
135. (hist) ‎Microfluidics ‎[8,102 bytes]
136. (hist) ‎Non mechanical technology path ‎[8,090 bytes]
137. (hist) ‎RepRec – inspiring sources ‎[8,085 bytes]
138. (hist) ‎Inter system crossing ‎[8,031 bytes]
139. (hist) ‎Same relative deflections across scales ‎[7,996 bytes]
140. (hist) ‎Fat finger problem ‎[7,940 bytes]
141. (hist) ‎ReChain frame systems ‎[7,917 bytes]
142. (hist) ‎In-solvent gem-gum technology ‎[7,906 bytes]
143. (hist) ‎Simulation hypothesis ‎[7,854 bytes]
144. (hist) ‎Pathway controversy ‎[7,839 bytes]
145. (hist) ‎Molecular dynamics implementation cheat sheet ‎[7,808 bytes]
146. (hist) ‎Naive groupings as dumbed down functions ‎[7,806 bytes]
147. (hist) ‎Nanomechanical computation ‎[7,797 bytes]
148. (hist) ‎Atomically precise roller gearbearing ‎[7,790 bytes]
149. (hist) ‎Color emulation ‎[7,767 bytes]
150. (hist) ‎Proto-assembler (outdated) ‎[7,754 bytes]
151. (hist) ‎Zoo of quasiparticles ‎[7,728 bytes]
152. (hist) ‎Diamond ‎[7,689 bytes]
153. (hist) ‎Dissipation sharing ‎[7,650 bytes]
154. (hist) ‎Why identical copying is unnecessary for foodsynthesis ‎[7,633 bytes]
155. (hist) ‎Friction ‎[7,571 bytes]
156. (hist) ‎Types in programming ‎[7,464 bytes]
157. (hist) ‎Cooling by heating ‎[7,451 bytes]
158. (hist) ‎Magnification theme-park ‎[7,397 bytes]
159. (hist) ‎Tracing trajectories of component in machine phase ‎[7,392 bytes]
160. (hist) ‎1D diffusion transport of crystolecules ‎[7,371 bytes]
161. (hist) ‎Deep drilling ‎[7,370 bytes]
162. (hist) ‎Typed holes ‎[7,355 bytes]
163. (hist) ‎Soil as a resource ‎[7,322 bytes]
164. (hist) ‎Phosphorus ‎[7,319 bytes]
165. (hist) ‎The defining traits of gem-gum-tec ‎[7,309 bytes]
166. (hist) ‎Asteroid belt ‎[7,260 bytes]
167. (hist) ‎Molecular biology ‎[7,211 bytes]
168. (hist) ‎Carbon dioxide collector ‎[7,191 bytes]
169. (hist) ‎Entropomechanical converter ‎[7,189 bytes]
170. (hist) ‎Nanomechanics is barely mechanical quantummechanics ‎[7,147 bytes]
171. (hist) ‎Cooling ‎[7,132 bytes]
172. (hist) ‎Positional assembly redundancy blockade ‎[7,084 bytes]
173. (hist) ‎Form closure ‎[7,079 bytes]
174. (hist) ‎Foundations of mathematics ‎[7,078 bytes]
175. (hist) ‎Quantum dispersed crystolecules ‎[7,052 bytes]
176. (hist) ‎Nanoscale actuators ‎[7,033 bytes]
177. (hist) ‎3D modeling ‎[7,023 bytes]
178. (hist) ‎Diffing ‎[6,999 bytes]
179. (hist) ‎Neo-polymorph ‎[6,983 bytes]
180. (hist) ‎Lucid dreaming ‎[6,969 bytes]
181. (hist) ‎Structural elements for nanofactories ‎[6,895 bytes]
182. (hist) ‎Foldamer printer ‎[6,892 bytes]
183. (hist) ‎Evolution ‎[6,882 bytes]
184. (hist) ‎The speed of atoms ‎[6,872 bytes]
185. (hist) ‎Mechanical computation ‎[6,872 bytes]
186. (hist) ‎Nanoscale surface passivation ‎[6,870 bytes]
187. (hist) ‎Technology level 0 ‎[6,794 bytes]
188. (hist) ‎Microcomponent maintenance microbot ‎[6,783 bytes]
189. (hist) ‎Lambda calculus ‎[6,779 bytes]
190. (hist) ‎Magnesium ‎[6,775 bytes]
191. (hist) ‎Discussion of proposed nanofactory designs ‎[6,737 bytes]
192. (hist) ‎Exciting super far term visions for gemstone metamaterial technology ‎[6,734 bytes]
193. (hist) ‎Low speed efficiency limit ‎[6,678 bytes]
194. (hist) ‎Housing in the gem-gum era ‎[6,672 bytes]
195. (hist) ‎Ultimate limit ‎[6,662 bytes]
196. (hist) ‎Pseudo phase diagram ‎[6,653 bytes]
197. (hist) ‎Programming languages ‎[6,649 bytes]
198. (hist) ‎Fun with spins ‎[6,640 bytes]
199. (hist) ‎How friction diminishes at the nanoscale ‎[6,640 bytes]
200. (hist) ‎Level throughput balancing ‎[6,636 bytes]
201. (hist) ‎De-novo protein engineering ‎[6,634 bytes]
202. (hist) ‎Diffusion transport ‎[6,605 bytes]
203. (hist) ‎Relations of APM to purely functional programming ‎[6,570 bytes]
204. (hist) ‎The fractal braided river of fate ‎[6,562 bytes]
205. (hist) ‎Distorted visualization methods for convergent assembly ‎[6,553 bytes]
206. (hist) ‎Carbon capture buoy scenario ‎[6,547 bytes]
207. (hist) ‎Highly polycyclic small molecule ‎[6,547 bytes]
208. (hist) ‎Energy conversion ‎[6,543 bytes]
209. (hist) ‎Nitrogen ‎[6,535 bytes]
210. (hist) ‎Simple metal containing carbides and nitrides ‎[6,483 bytes]
211. (hist) ‎Van der Waals force ‎[6,451 bytes]
212. (hist) ‎Bootstrapping methods for productive nanosystems ‎[6,421 bytes]
213. (hist) ‎Moissanite ‎[6,411 bytes]
214. (hist) ‎Molecular dynamics simulation ‎[6,396 bytes]
215. (hist) ‎Mechanosphere ‎[6,364 bytes]
216. (hist) ‎Gaps in software ‎[6,326 bytes]
217. (hist) ‎On the probability interpretation of quantum mechanics ‎[6,276 bytes]
218. (hist) ‎Higher bearing surface area of smaller machinery ‎[6,250 bytes]
219. (hist) ‎Form factors of gem-gum factories ‎[6,240 bytes]
220. (hist) ‎Mining ‎[6,220 bytes]
221. (hist) ‎Chemical stability ‎[6,188 bytes]
222. (hist) ‎Molecular assemblers as advanced productive nanosystem (outdated) ‎[6,174 bytes]
223. (hist) ‎Surface passivation ‎[6,156 bytes]
224. (hist) ‎Ligand field theory ‎[6,149 bytes]
225. (hist) ‎Natural color of gem-gum products ‎[6,115 bytes]
226. (hist) ‎RR/Mechanical through joint motion threading ‎[6,082 bytes]
227. (hist) ‎Thermal isolation ‎[6,037 bytes]
228. (hist) ‎The "something" ‎[6,033 bytes]
229. (hist) ‎Why ultra-compact molecular assemblers are too difficult ‎[6,026 bytes]
230. (hist) ‎Hierarchical selfassembly ‎[6,008 bytes]
231. (hist) ‎Assembly level 3 (gem-gum factory) ‎[6,002 bytes]
232. (hist) ‎Stiffness ‎[5,963 bytes]
233. (hist) ‎Calcium ‎[5,957 bytes]
234. (hist) ‎Mechanooptical conversion ‎[5,926 bytes]
235. (hist) ‎Visually augmented purely functional programming ‎[5,873 bytes]
236. (hist) ‎Energy, force, and stiffness ‎[5,863 bytes]
237. (hist) ‎How gem-gum factories link to deep mysteries of the universe ‎[5,862 bytes]
238. (hist) ‎Aluminium ‎[5,833 bytes]
239. (hist) ‎Chemospring ‎[5,792 bytes]
240. (hist) ‎In place assembly ‎[5,767 bytes]
241. (hist) ‎Rutile ‎[5,694 bytes]
242. (hist) ‎Log polar mapping ‎[5,630 bytes]
243. (hist) ‎Nature does it differently ‎[5,599 bytes]
244. (hist) ‎On chip microcomponent recomposer ‎[5,599 bytes]
245. (hist) ‎Wishlist ‎[5,591 bytes]
246. (hist) ‎Curry-Howard-Lambeck isomorphism ‎[5,582 bytes]
247. (hist) ‎How macroscale style machinery at the nanoscale outperforms its native scale ‎[5,575 bytes]
248. (hist) ‎Silicon ‎[5,562 bytes]
249. (hist) ‎Interplanetary atomically precise von Neumann probes ‎[5,537 bytes]
250. (hist) ‎Mobile nanoscale robotic device ‎[5,508 bytes]

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