tag:blogger.com,1999:blog-568392849289927853.post3316284777819495775..comments2024-03-29T08:11:44.597+01:00Comments on BALD Engineering - Born in Finland, Born to ALD: New Liquid phase Atomic Layer Deposition (ALD) — A Breakthrough in ALDJonas Sundqvisthttp://www.blogger.com/profile/09326073294896585855noreply@blogger.comBlogger5125tag:blogger.com,1999:blog-568392849289927853.post-67247643724198300532023-10-14T08:57:38.282+02:002023-10-14T08:57:38.282+02:00Huge quantities of us understand all concerning th...Huge quantities of us understand all concerning the persuading system you make steady tips and hoodwinks through your blog and in this manner further foster responsibility from others on the point then my young lady is undoubtedly becoming shown a ton. <a href="https://www.themoviefashion.com/product/the-walking-dead-season-5-rick-grimes-brown-jacket/" rel="nofollow">Rick Grimes Jacket</a>Rick Grimes Jackethttps://www.themoviefashion.com/product/the-walking-dead-season-5-rick-grimes-brown-jacket/noreply@blogger.comtag:blogger.com,1999:blog-568392849289927853.post-7364536931933698152020-10-12T11:37:11.376+02:002020-10-12T11:37:11.376+02:00I high appreciate this post. It’s hard to find the...I high appreciate this post. It’s hard to find the good from the bad sometimes, but I think you’ve nailed it! would you mind updating your blog with more information? <a href="https://justcbdstore.com/product-category/cbd-vegan-gummies/" rel="nofollow">Vegan CBD Gummies</a><br />SHAHZAIBhttps://www.blogger.com/profile/18016714975932207188noreply@blogger.comtag:blogger.com,1999:blog-568392849289927853.post-35485006005615429882020-10-05T19:14:07.825+02:002020-10-05T19:14:07.825+02:00It is an active ingredient found in marijuana. Mar...It is an active ingredient found in marijuana. Marijuana has CBD and THCA and both have different effects. <a href="https://justcbdstore.com/product/cbd-vape-pina-colada/" rel="nofollow">JustCBD CBD Eliquid</a>Davidhttps://www.blogger.com/profile/05883216921001046120noreply@blogger.comtag:blogger.com,1999:blog-568392849289927853.post-80983179568650182752020-08-27T11:20:03.058+02:002020-08-27T11:20:03.058+02:00Outstanding as well as powerful tip by the writer ...Outstanding as well as powerful tip by the writer of this blog are really handy to me. <a href="https://www.flavourchasers.com.au/collections/flavorah" rel="nofollow">Diy Vapor Flavoring</a>Flavour Chasershttps://www.blogger.com/profile/02970809071255248887noreply@blogger.comtag:blogger.com,1999:blog-568392849289927853.post-86804607054732457772019-11-14T06:53:10.356+01:002019-11-14T06:53:10.356+01:00Dear Jonas and Abhishekkumar,
This work is intere...Dear Jonas and Abhishekkumar,<br /><br />This work is interesting and certainly useful for certain cases, but I hardly see the breakthrough. The authors make statements without being aware of the existing literature, especially on ALD on high-surface-area powders. Here below a few points questioning their motivation:<br /><br />1) "ALD on high-surface-area powders makes use of excess precusors" FALSE! In ALD on high-surface-area powders, ~100% precursor utilization can be achieved. See: https://www.sciencedirect.com/science/article/pii/S0257897207005130 and https://www.sciencedirect.com/science/article/pii/S1385894715000960?via%3Dihub<br /><br />2) Their process cannot be called ALD due to its inherently not self-limiting nature. Any excess precursor will lead to excess growth in the next half-cycle, given the absence of purging steps.<br /> <br />3) Real liquid-phase ALD has been already shown. https://pubs.acs.org/doi/10.1021/acs.nanolett.5b01424 When referring to it, the authors say that it involves huge precursor excesses (FALSE) and solvent excesses (like their process). So, no point.<br /><br />4) The authors make use of solvents that (i) need to be removed, and (ii) are generally not good with organic powders, which are either soluble or degradable.<br /><br />Overall, their approach could be useful when using non-volatile precursors (as also very well explained here https://pubs.acs.org/doi/10.1021/acs.nanolett.5b01424) and/or for processing highly cohesive inorganic powders which are difficult to mix/fluidize. <br /><br />So, most of their motivation doesn’t stand.<br /><br />Greetings, <br />Damiano La Zara (TU Delft)Damiano La Zarahttps://www.blogger.com/profile/14554774706577247454noreply@blogger.com