Silver nanocubes were successfully synthesized at high yield in variously controlled reaction atmospheres by balancing etching of O 2 /Cl − and reduction of glycolaldehyde. There have been efforts to control the O 2 content in reaction atmospheres by purging of O 2 or Ar gas for the balancing, but we found that moderate control of reaction atmosphere, just by careful timing of the opening and the capping of the reaction vial, greatly enhanced reproducibility. Enhanced reproducibility is attributed to alleviation of evaporation and condensation of glycolaldehyde (b.p.=131°C) by using capping at reaction temperatures higher than the b.p. of glycolaldehyde rather than purging with gas. The most important finding is that seeding is initiated by HNO 3 induced deoxygenation reaction in the gas phase. O 2 is consumed by oxidation of NO generated from the silver etching reaction by HNO 3 , which effectively controls the reaction atmosphere without introduction of gas. Our simple method to control reaction atmosphere reduces the overall reaction time to one fifth of the previous result and provides excellent size and distribution selectivity of the Ag nanocube product.