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'''Hong-Cai (Joe) Zhou''' ({{lang|zh|周宏才}}; born c. 1964) is a Chinese-American chemist and academic. He is the Davidson Professor of Science and [[Robert A. Welch Foundation|Robert A. Welch Chair in Chemistry]] at [[Texas A&M University]]. He is the associate editor of the journal Inorganic Chemistry.
'''Hong-Cai (Joe) Zhou''' ({{lang|zh|周宏才}}; born c. 1964) is a Chinese-American chemist and academic. He is the Davidson Professor of Science and [[Robert A. Welch Foundation|Robert A. Welch Chair in Chemistry]] at [[Texas A&M University]]. He is the associate editor of the journal ''[[Inorganic Chemistry (journal)|Inorganic Chemistry]]''.


==Early life and education==
==Early life and education==
Zhou gained admission to [[Beijing Normal University]] at the age of 16, and took up a post as a lecturer there after receiving his bachelor's degree, teaching introductory [[chemical engineering]] classes. In 1996, at the age of 32, he stepped down from his post and chose to go abroad to pursue further studies. Zhou earned a Ph.D. in chemistry at Texas A&M University in 2000, studying under [[F. Albert Cotton]].<ref name="KBTX">{{cite web|title=Gem of the Day 7/16: TAMU chemist earns $3 million grant|url=http://www.kbtx.com/features/treatoftheday/headlines/Gem_of_the_Day__162670246.html|publisher=[[KBTX]]|accessdate=April 5, 2016|date=July 16, 2012}}{{Dead link|date=January 2020 |bot=InternetArchiveBot |fix-attempted=yes }}</ref> He was a postdoctoral fellow at [[Harvard University]].
Zhou gained admission to [[Beijing Normal University]] at the age of 16, and took up a position as a lecturer there after receiving his bachelor's degree, teaching introductory [[chemical engineering]] classes. In 1996, at the age of 32, he stepped down from his position and chose to go abroad to pursue further studies.<ref>{{Cite journal|date=2019|title=Hong-Cai “Joe” Zhou|url=https://onlinelibrary.wiley.com/doi/abs/10.1002/anie.201812741|journal=Angewandte Chemie International Edition|volume=58|issue=15|pages=4774–4775|doi=10.1002/anie.201812741|issn=1521-3773}}</ref> Zhou earned a Ph.D. in chemistry at Texas A&M University in 2000, studying under [[F. Albert Cotton]].<ref name="KBTX">{{cite web|title=Gem of the Day 7/16: TAMU chemist earns $3 million grant|url=http://www.kbtx.com/features/treatoftheday/headlines/Gem_of_the_Day__162670246.html|publisher=[[KBTX]]|accessdate=April 5, 2016|date=July 16, 2012}}{{Dead link|date=January 2020 |bot=InternetArchiveBot |fix-attempted=yes }}</ref> He was a postdoctoral fellow at [[Harvard University]] working with [[Richard H. Holm]].


==Career==
==Career==
In 2002, he joined the faculty at Miami University. He won a [[National Science Foundation CAREER Awards|National Science Foundation CAREER Award]] in 2005 and received tenure in 2007.<ref name="Miami">{{cite web|title=Hongcai Zhou|url=http://miamioh.edu/news/article/view/10198|publisher=[[Miami University]]|accessdate=April 5, 2016|date=February 22, 2007}}</ref>
In 2002, he joined the faculty at Miami University. He won a [[National Science Foundation CAREER Awards|National Science Foundation CAREER Award]] in 2005 and received tenure in 2007.<ref name="Miami">{{cite web|title=Hongcai Zhou|url=http://miamioh.edu/news/article/view/10198|publisher=[[Miami University]]|accessdate=April 5, 2016|date=February 22, 2007}}</ref> In 2008, Zhou moved to Texas A&M University. In 2014, he was promoted to Davidson Professor of Science and a joint holder of the Davidson Chair in Science.<ref name="Eagle">{{cite web|title=Texas A&M chemistry professors receive special appointments|url=http://www.theeagle.com/news/local/texas-a-m-chemistry-professors-receive-special-appointments/article_526d3c3f-2b0d-524c-af9b-e860d509a178.html|publisher=[[The Bryan-College Station Eagle]]|accessdate=April 5, 2016|date=July 2, 2014}}</ref> He holds a Welch Chair in Chemistry.<ref name="Welch">{{cite web|title=Endowed chairs|url=http://www.welch1.org/grants-programs/endowed-chairs/endowed-chairs|publisher=[[Robert A. Welch Foundation]]|accessdate=April 5, 2016}}</ref>
==Professional work==
Zhou's research group focuses on [[metal-organic framework]]s (MOFs) with over '''350''' publications in peer-reviewed journals, including more than '''150''' in high impact journals such as ''[[Nature Chemistry]], [[Nature Communications]], [[Journal of the American Chemical Society]], and [[Angewandte Chemie]]''.<ref name="ZRG">{{cite web|title=Zhou Research Group: Research|url=https://www.chem.tamu.edu/rgroup/zhou/research.html|publisher=[[Texas A&M University]]|accessdate=April 5, 2016}}</ref> Since 2008, the number of citations of his work has increased exponentially reaching annual citations of over 8,643 in 2020 and total citations of around '''57,171''' with an h-index of '''105'''.<ref>{{Cite web|title=Hong-Cai Zhou's Publons profile|url=https://publons.com/researcher/2818448/hong-cai-zhou/|access-date=2021-05-12|website=publons.com|language=en}}</ref> Since 2013, he serves as an associate editor of the ACS journal ''[[Inorganic Chemistry (journal)|Inorganic Chemistry]]''.<ref name="Inorganic">{{cite web|title=Inorganic Chemistry: Editors & Editorial Board|url=https://pubs.acs.org/page/inocaj/editors.html|url-status=live|access-date=April 9, 2021|website=pubs.acs.org|language=en}}</ref>


Zhou has invented a toolkit for the manipulation of self-assembly of [[Porous medium|porous materials]] from a coordination hollow cage to a predesigned, extended network full of hierarchical cavities, bearing various functional groups on the internal surface.<ref>{{Cite journal|last=Kirchon|first=Angelo|last2=Feng|first2=Liang|last3=Drake|first3=Hannah F.|last4=Joseph|first4=Elizabeth A.|last5=Zhou|first5=Hong-Cai|date=2018-11-26|title=From fundamentals to applications: a toolbox for robust and multifunctional MOF materials|url=https://pubs.rsc.org/en/content/articlelanding/2018/cs/c8cs00688a|journal=Chemical Society Reviews|language=en|volume=47|issue=23|pages=8611–8638|doi=10.1039/C8CS00688A|issn=1460-4744}}</ref> These porous structures with hierarchical porosity and programmed sequence of functional groups are in urgent demand for the creation of ordered architectures that can channel the mass and energy flow, which are critical for catalysis, energy harvesting/storage, as well as information processing.
In 2008, Zhou moved to Texas A&M University. In 2014, he was made Davidson Professor of Science and a joint holder of the Davidson Chair in Science.<ref name="Eagle">{{cite web|title=Texas A&M chemistry professors receive special appointments|url=http://www.theeagle.com/news/local/texas-a-m-chemistry-professors-receive-special-appointments/article_526d3c3f-2b0d-524c-af9b-e860d509a178.html|publisher=[[The Bryan-College Station Eagle]]|accessdate=April 5, 2016|date=July 2, 2014}}</ref> He holds a Welch Chair in Chemistry.<ref name="Welch">{{cite web|title=Endowed chairs|url=http://www.welch1.org/grants-programs/endowed-chairs/endowed-chairs|publisher=[[Robert A. Welch Foundation]]|accessdate=April 5, 2016}}</ref>


Zhou is a trail blazer in synthetic inorganic chemistry of "Pore Engineering", a term coined by Zhou.<ref>{{Cite journal|date=2020-11-05|title=Strategies for Pore Engineering in Zirconium Metal-Organic Frameworks|url=https://www.sciencedirect.com/science/article/abs/pii/S2451929420304745|journal=Chem|language=en|volume=6|issue=11|pages=2902–2923|doi=10.1016/j.chempr.2020.09.010|issn=2451-9294}}</ref> His research focuses on the design, preparation, and application of framework materials such as hollow coordination cages, metal-organic frameworks (MOFs), and porous polymer networks. He is best known for introducing a variety of tools to control the structure, porosity, and functionality of framework materials. Some of his seminal contributions include "bridging-ligand substitution",<ref>{{Cite journal|last=Li|first=Jian-Rong|last2=Zhou|first2=Hong-Cai|date=2010-10|title=Bridging-ligand-substitution strategy for the preparation of metal–organic polyhedra|url=https://www.nature.com/articles/nchem.803|journal=Nature Chemistry|language=en|volume=2|issue=10|pages=893–898|doi=10.1038/nchem.803|issn=1755-4349}}</ref> "ligand-fragment co-assembly",<ref>{{Cite journal|last=Park|first=Jinhee|last2=Wang|first2=Zhiyong U.|last3=Sun|first3=Lin-Bing|last4=Chen|first4=Ying-Pin|last5=Zhou|first5=Hong-Cai|date=2012-12-12|title=Introduction of Functionalized Mesopores to Metal–Organic Frameworks via Metal–Ligand–Fragment Coassembly|url=https://doi.org/10.1021/ja3085884|journal=Journal of the American Chemical Society|volume=134|issue=49|pages=20110–20116|doi=10.1021/ja3085884|issn=0002-7863}}</ref> "kinetic analysis and tuning",<ref>{{Cite journal|last=Feng|first=Dawei|last2=Wang|first2=Kecheng|last3=Wei|first3=Zhangwen|last4=Chen|first4=Ying-Pin|last5=Simon|first5=Cory M.|last6=Arvapally|first6=Ravi K.|last7=Martin|first7=Richard L.|last8=Bosch|first8=Mathieu|last9=Liu|first9=Tian-Fu|last10=Fordham|first10=Stephen|last11=Yuan|first11=Daqiang|date=2014-12-04|title=Kinetically tuned dimensional augmentation as a versatile synthetic route towards robust metal–organic frameworks|url=https://www.nature.com/articles/ncomms6723|journal=Nature Communications|language=en|volume=5|issue=1|pages=5723|doi=10.1038/ncomms6723|issn=2041-1723}}</ref> "linker installation",<ref>{{Cite journal|last=Yuan|first=Shuai|last2=Chen|first2=Ying-Pin|last3=Qin|first3=Jun-Sheng|last4=Lu|first4=Weigang|last5=Zou|first5=Lanfang|last6=Zhang|first6=Qiang|last7=Wang|first7=Xuan|last8=Sun|first8=Xing|last9=Zhou|first9=Hong-Cai|date=2016-07-20|title=Linker Installation: Engineering Pore Environment with Precisely Placed Functionalities in Zirconium MOFs|url=https://doi.org/10.1021/jacs.6b04501|journal=Journal of the American Chemical Society|volume=138|issue=28|pages=8912–8919|doi=10.1021/jacs.6b04501|issn=0002-7863}}</ref> "linker labilization",<ref>{{Cite journal|last=Yuan|first=Shuai|last2=Zou|first2=Lanfang|last3=Qin|first3=Jun-Sheng|last4=Li|first4=Jialuo|last5=Huang|first5=Lan|last6=Feng|first6=Liang|last7=Wang|first7=Xuan|last8=Bosch|first8=Mathieu|last9=Alsalme|first9=Ali|last10=Cagin|first10=Tahir|last11=Zhou|first11=Hong-Cai|date=2017-05-25|title=Construction of hierarchically porous metal–organic frameworks through linker labilization|url=https://www.nature.com/articles/ncomms15356|journal=Nature Communications|language=en|volume=8|issue=1|pages=15356|doi=10.1038/ncomms15356|issn=2041-1723}}</ref> "cluster and linker metalation",<ref name=":0">{{Cite journal|last=Yuan|first=Shuai|last2=Chen|first2=Ying-Pin|last3=Qin|first3=Junsheng|last4=Lu|first4=Weigang|last5=Wang|first5=Xuan|last6=Zhang|first6=Qiang|last7=Bosch|first7=Mathieu|last8=Liu|first8=Tian-Fu|last9=Lian|first9=Xizhen|last10=Zhou|first10=Hong-Cai|date=2015|title=Cooperative Cluster Metalation and Ligand Migration in Zirconium Metal–Organic Frameworks|url=https://onlinelibrary.wiley.com/doi/abs/10.1002/anie.201505625|journal=Angewandte Chemie International Edition|language=en|volume=54|issue=49|pages=14696–14700|doi=10.1002/anie.201505625|issn=1521-3773}}</ref> "linker migration",<ref name=":0" /> "domino lattice rearrangement",<ref>{{Cite journal|last=Lo|first=Sheng-Han|last2=Feng|first2=Liang|last3=Tan|first3=Kui|last4=Huang|first4=Zhehao|last5=Yuan|first5=Shuai|last6=Wang|first6=Kun-Yu|last7=Li|first7=Bing-Han|last8=Liu|first8=Wan-Ling|last9=Day|first9=Gregory S.|last10=Tao|first10=Songsheng|last11=Yang|first11=Chun-Chuen|date=2020-01|title=Rapid desolvation-triggered domino lattice rearrangement in a metal–organic framework|url=https://www.nature.com/articles/s41557-019-0364-0|journal=Nature Chemistry|language=en|volume=12|issue=1|pages=90–97|doi=10.1038/s41557-019-0364-0|issn=1755-4349}}</ref> and "retrosynthetic design".<ref>{{Cite journal|last=Yuan|first=Shuai|last2=Qin|first2=Jun-Sheng|last3=Li|first3=Jialuo|last4=Huang|first4=Lan|last5=Feng|first5=Liang|last6=Fang|first6=Yu|last7=Lollar|first7=Christina|last8=Pang|first8=Jiandong|last9=Zhang|first9=Liangliang|last10=Sun|first10=Di|last11=Alsalme|first11=Ali|date=2018-02-23|title=Retrosynthesis of multi-component metal−organic frameworks|url=https://www.nature.com/articles/s41467-018-03102-5|journal=Nature Communications|language=en|volume=9|issue=1|pages=808|doi=10.1038/s41467-018-03102-5|issn=2041-1723}}</ref> These contributions formed the aforementioned "toolkit" for MOF synthesis, which enables the preparation and functionalization of MOFs for a wide range of applications, especially in gas storage, separation, catalysis, biomedicine, and degradation of recalcitrant pollutants. Recently, he expanded this MOF toolkit into modular design of hierarchically porous MOFs, MOF hybrids, MOF superstructures, and MOF-polymer composites, which formed the basis of "Pore Engineering".
==Professional work==

Zhou's research group focuses on work with [[metal-organic framework]]s (MOFs).<ref name="ZRG">{{cite web|title=Zhou Research Group: Research|url=https://www.chem.tamu.edu/rgroup/zhou/research.html|publisher=[[Texas A&M University]]|accessdate=April 5, 2016}}</ref> He was named to the [[Institute for Scientific Information#ISI Highly Cited|Thomson Reuters Highly Cited Researchers 2015]] database.<ref name="HCR">{{cite web|title=Highly Cited Researchers|url=http://hcr.stateofinnovation.thomsonreuters.com/|publisher=[[Thomson Reuters]]|accessdate=April 5, 2016|archive-url=https://web.archive.org/web/20161205140036/http://hcr.stateofinnovation.thomsonreuters.com/|archive-date=December 5, 2016|url-status=dead}}</ref> He is an associate editor of the journal ''[[Inorganic Chemistry (journal)|Inorganic Chemistry]]''.<ref name="Inorganic">{{cite web|title=Inorganic Chemistry: Editors & Editorial Board|url=https://pubs.acs.org/page/inocaj/editors.html|url-status=live|access-date=April 9, 2021|website=pubs.acs.org|language=en}}</ref>
The essence of "Pore Engineering" is by controlling the assembly procedure of frameworks, taking advantage of the tunable lability of coordination and dynamic covalent bonds, to make functionalized hierarchical structures from microporous to mesoporous level and beyond.

In the MOF research community, Zhou became one of the international leaders. He served as a guest editor (co-editors: Jeffrey Long and Omar Yaghi) for the first [[Chemical Reviews|Chem. Rev.]] thematic issue on Metal-Organic Frameworks in 2012.<ref>{{Cite journal|date=2012-02-08|title=Introduction to Metal–Organic Frameworks|url=https://doi.org/10.1021/cr300014x|journal=Chemical Reviews|volume=112|issue=2|pages=673–674|doi=10.1021/cr300014x|issn=0009-2665}}</ref> This important volume in MOF research served as a catalyst for the maturation of the MOF field. He has co-edited a themed issue for [[Chemical Society Reviews|Chem. Soc. Rev.]] (coeditor: Susumu Kitagawa) in 2014.<ref>{{Cite journal|last=Hong-Cai “Joe” Zhou|last2=Kitagawa|first2=Susumu|date=2014|title=Metal–Organic Frameworks (MOFs)|url=https://pubs.rsc.org/en/content/articlelanding/2014/cs/c4cs90059f|journal=Chemical Society Reviews|language=en|volume=43|issue=16|pages=5415–5418|doi=10.1039/C4CS90059F}}</ref> In 2008, he co-organized (organizer: Wenbin Lin) an ACS Symposium: Metal-Organic Frameworks: What Are They Good for? In 2013, he organized (co-organizer: Wenbin Lin) another ACS Symposium, Metal-Organic Frameworks: Where Do We Stand? These two symposia brought in record-number of attendees and stimulated new research ideas and activities in MOF community. In 2016, he gave a webinar on MOFs for Gas Storage, which was organized by the Editorial Board of Chem. In 2018, he co-organized (Organizer: Shengqian Ma; co-organizer: Wenbin Lin) the third ACS MOF Symposium, Metal-Organic Frameworks: What Are Next?


==Honors and awards==
==Honors and awards==
His awards include a Research Innovation Award from [[Research Corporation]] in 2003, an [[National Science Foundation CAREER Awards|NSF CAREER Award]] in 2005,<ref>{{Cite web|title=NSF Award Search: Award # 0449634 - CAREER: From Biomimetic Reaction Platforms to Nanostructured Artificial Enzymes|url=https://www.nsf.gov/awardsearch/showAward?AWD_ID=0449634|access-date=2021-05-12|website=www.nsf.gov}}</ref> a Cottrell Scholar Award from Research Corporation in 2005, the 2006 Miami University Distinguished Scholar-Young Investigator Award, the 2007 Faculty Excellence Award from Air Products, as well as the 2010 DOE Hydrogen Program Special Recognition Award as a main contributor to the Hydrogen Sorption Center of Excellence. In 2014, he received a JSPS Invitation Fellowship. In 2017, he was awarded the Association of Former Students of Texas A&M University Distinguished Achievement Award in Research. Since 2014, he has been listed annually as a "Highly Cited Researcher" by [[Clarivate Analytics]] (formerly Thomson Reuters).<ref name="HCR">{{cite web|title=Highly Cited Researchers|url=http://hcr.stateofinnovation.thomsonreuters.com/|url-status=dead|archive-url=https://web.archive.org/web/20161205140036/http://hcr.stateofinnovation.thomsonreuters.com/|archive-date=December 5, 2016|publisher=[[Thomson Reuters]]|accessdate=April 5, 2016}}</ref> He was elected a fellow of the AAAS, ACS, and RSC, respectively.
Zhou's resea


==References==
==References==

Revision as of 22:52, 12 May 2021

Hong-Cai (Joe) Zhou
Hong-Cai (Joe) Zhou
NationalityChinese-American
Alma materBeijing Normal University
Texas A&M University
Harvard University
Scientific career
FieldsChemistry
InstitutionsTexas A&M University

Hong-Cai (Joe) Zhou (周宏才; born c. 1964) is a Chinese-American chemist and academic. He is the Davidson Professor of Science and Robert A. Welch Chair in Chemistry at Texas A&M University. He is the associate editor of the journal Inorganic Chemistry.

Early life and education

Zhou gained admission to Beijing Normal University at the age of 16, and took up a position as a lecturer there after receiving his bachelor's degree, teaching introductory chemical engineering classes. In 1996, at the age of 32, he stepped down from his position and chose to go abroad to pursue further studies.[1] Zhou earned a Ph.D. in chemistry at Texas A&M University in 2000, studying under F. Albert Cotton.[2] He was a postdoctoral fellow at Harvard University working with Richard H. Holm.

Career

In 2002, he joined the faculty at Miami University. He won a National Science Foundation CAREER Award in 2005 and received tenure in 2007.[3] In 2008, Zhou moved to Texas A&M University. In 2014, he was promoted to Davidson Professor of Science and a joint holder of the Davidson Chair in Science.[4] He holds a Welch Chair in Chemistry.[5]

Professional work

Zhou's research group focuses on metal-organic frameworks (MOFs) with over 350 publications in peer-reviewed journals, including more than 150 in high impact journals such as Nature Chemistry, Nature Communications, Journal of the American Chemical Society, and Angewandte Chemie.[6] Since 2008, the number of citations of his work has increased exponentially reaching annual citations of over 8,643 in 2020 and total citations of around 57,171 with an h-index of 105.[7] Since 2013, he serves as an associate editor of the ACS journal Inorganic Chemistry.[8]

Zhou has invented a toolkit for the manipulation of self-assembly of porous materials from a coordination hollow cage to a predesigned, extended network full of hierarchical cavities, bearing various functional groups on the internal surface.[9] These porous structures with hierarchical porosity and programmed sequence of functional groups are in urgent demand for the creation of ordered architectures that can channel the mass and energy flow, which are critical for catalysis, energy harvesting/storage, as well as information processing.

Zhou is a trail blazer in synthetic inorganic chemistry of "Pore Engineering", a term coined by Zhou.[10] His research focuses on the design, preparation, and application of framework materials such as hollow coordination cages, metal-organic frameworks (MOFs), and porous polymer networks. He is best known for introducing a variety of tools to control the structure, porosity, and functionality of framework materials. Some of his seminal contributions include "bridging-ligand substitution",[11] "ligand-fragment co-assembly",[12] "kinetic analysis and tuning",[13] "linker installation",[14] "linker labilization",[15] "cluster and linker metalation",[16] "linker migration",[16] "domino lattice rearrangement",[17] and "retrosynthetic design".[18] These contributions formed the aforementioned "toolkit" for MOF synthesis, which enables the preparation and functionalization of MOFs for a wide range of applications, especially in gas storage, separation, catalysis, biomedicine, and degradation of recalcitrant pollutants. Recently, he expanded this MOF toolkit into modular design of hierarchically porous MOFs, MOF hybrids, MOF superstructures, and MOF-polymer composites, which formed the basis of "Pore Engineering".

The essence of "Pore Engineering" is by controlling the assembly procedure of frameworks, taking advantage of the tunable lability of coordination and dynamic covalent bonds, to make functionalized hierarchical structures from microporous to mesoporous level and beyond.

In the MOF research community, Zhou became one of the international leaders. He served as a guest editor (co-editors: Jeffrey Long and Omar Yaghi) for the first Chem. Rev. thematic issue on Metal-Organic Frameworks in 2012.[19] This important volume in MOF research served as a catalyst for the maturation of the MOF field. He has co-edited a themed issue for Chem. Soc. Rev. (coeditor: Susumu Kitagawa) in 2014.[20] In 2008, he co-organized (organizer: Wenbin Lin) an ACS Symposium: Metal-Organic Frameworks: What Are They Good for? In 2013, he organized (co-organizer: Wenbin Lin) another ACS Symposium, Metal-Organic Frameworks: Where Do We Stand? These two symposia brought in record-number of attendees and stimulated new research ideas and activities in MOF community. In 2016, he gave a webinar on MOFs for Gas Storage, which was organized by the Editorial Board of Chem. In 2018, he co-organized (Organizer: Shengqian Ma; co-organizer: Wenbin Lin) the third ACS MOF Symposium, Metal-Organic Frameworks: What Are Next?

Honors and awards

His awards include a Research Innovation Award from Research Corporation in 2003, an NSF CAREER Award in 2005,[21] a Cottrell Scholar Award from Research Corporation in 2005, the 2006 Miami University Distinguished Scholar-Young Investigator Award, the 2007 Faculty Excellence Award from Air Products, as well as the 2010 DOE Hydrogen Program Special Recognition Award as a main contributor to the Hydrogen Sorption Center of Excellence. In 2014, he received a JSPS Invitation Fellowship. In 2017, he was awarded the Association of Former Students of Texas A&M University Distinguished Achievement Award in Research. Since 2014, he has been listed annually as a "Highly Cited Researcher" by Clarivate Analytics (formerly Thomson Reuters).[22] He was elected a fellow of the AAAS, ACS, and RSC, respectively.

References

  1. ^ "Hong-Cai "Joe" Zhou". Angewandte Chemie International Edition. 58 (15): 4774–4775. 2019. doi:10.1002/anie.201812741. ISSN 1521-3773.
  2. ^ "Gem of the Day 7/16: TAMU chemist earns $3 million grant". KBTX. July 16, 2012. Retrieved April 5, 2016.[permanent dead link]
  3. ^ "Hongcai Zhou". Miami University. February 22, 2007. Retrieved April 5, 2016.
  4. ^ "Texas A&M chemistry professors receive special appointments". The Bryan-College Station Eagle. July 2, 2014. Retrieved April 5, 2016.
  5. ^ "Endowed chairs". Robert A. Welch Foundation. Retrieved April 5, 2016.
  6. ^ "Zhou Research Group: Research". Texas A&M University. Retrieved April 5, 2016.
  7. ^ "Hong-Cai Zhou's Publons profile". publons.com. Retrieved 2021-05-12.
  8. ^ "Inorganic Chemistry: Editors & Editorial Board". pubs.acs.org. Retrieved April 9, 2021.{{cite web}}: CS1 maint: url-status (link)
  9. ^ Kirchon, Angelo; Feng, Liang; Drake, Hannah F.; Joseph, Elizabeth A.; Zhou, Hong-Cai (2018-11-26). "From fundamentals to applications: a toolbox for robust and multifunctional MOF materials". Chemical Society Reviews. 47 (23): 8611–8638. doi:10.1039/C8CS00688A. ISSN 1460-4744.
  10. ^ "Strategies for Pore Engineering in Zirconium Metal-Organic Frameworks". Chem. 6 (11): 2902–2923. 2020-11-05. doi:10.1016/j.chempr.2020.09.010. ISSN 2451-9294.
  11. ^ Li, Jian-Rong; Zhou, Hong-Cai (2010-10). "Bridging-ligand-substitution strategy for the preparation of metal–organic polyhedra". Nature Chemistry. 2 (10): 893–898. doi:10.1038/nchem.803. ISSN 1755-4349. {{cite journal}}: Check date values in: |date= (help)
  12. ^ Park, Jinhee; Wang, Zhiyong U.; Sun, Lin-Bing; Chen, Ying-Pin; Zhou, Hong-Cai (2012-12-12). "Introduction of Functionalized Mesopores to Metal–Organic Frameworks via Metal–Ligand–Fragment Coassembly". Journal of the American Chemical Society. 134 (49): 20110–20116. doi:10.1021/ja3085884. ISSN 0002-7863.
  13. ^ Feng, Dawei; Wang, Kecheng; Wei, Zhangwen; Chen, Ying-Pin; Simon, Cory M.; Arvapally, Ravi K.; Martin, Richard L.; Bosch, Mathieu; Liu, Tian-Fu; Fordham, Stephen; Yuan, Daqiang (2014-12-04). "Kinetically tuned dimensional augmentation as a versatile synthetic route towards robust metal–organic frameworks". Nature Communications. 5 (1): 5723. doi:10.1038/ncomms6723. ISSN 2041-1723.
  14. ^ Yuan, Shuai; Chen, Ying-Pin; Qin, Jun-Sheng; Lu, Weigang; Zou, Lanfang; Zhang, Qiang; Wang, Xuan; Sun, Xing; Zhou, Hong-Cai (2016-07-20). "Linker Installation: Engineering Pore Environment with Precisely Placed Functionalities in Zirconium MOFs". Journal of the American Chemical Society. 138 (28): 8912–8919. doi:10.1021/jacs.6b04501. ISSN 0002-7863.
  15. ^ Yuan, Shuai; Zou, Lanfang; Qin, Jun-Sheng; Li, Jialuo; Huang, Lan; Feng, Liang; Wang, Xuan; Bosch, Mathieu; Alsalme, Ali; Cagin, Tahir; Zhou, Hong-Cai (2017-05-25). "Construction of hierarchically porous metal–organic frameworks through linker labilization". Nature Communications. 8 (1): 15356. doi:10.1038/ncomms15356. ISSN 2041-1723.
  16. ^ a b Yuan, Shuai; Chen, Ying-Pin; Qin, Junsheng; Lu, Weigang; Wang, Xuan; Zhang, Qiang; Bosch, Mathieu; Liu, Tian-Fu; Lian, Xizhen; Zhou, Hong-Cai (2015). "Cooperative Cluster Metalation and Ligand Migration in Zirconium Metal–Organic Frameworks". Angewandte Chemie International Edition. 54 (49): 14696–14700. doi:10.1002/anie.201505625. ISSN 1521-3773.
  17. ^ Lo, Sheng-Han; Feng, Liang; Tan, Kui; Huang, Zhehao; Yuan, Shuai; Wang, Kun-Yu; Li, Bing-Han; Liu, Wan-Ling; Day, Gregory S.; Tao, Songsheng; Yang, Chun-Chuen (2020-01). "Rapid desolvation-triggered domino lattice rearrangement in a metal–organic framework". Nature Chemistry. 12 (1): 90–97. doi:10.1038/s41557-019-0364-0. ISSN 1755-4349. {{cite journal}}: Check date values in: |date= (help)
  18. ^ Yuan, Shuai; Qin, Jun-Sheng; Li, Jialuo; Huang, Lan; Feng, Liang; Fang, Yu; Lollar, Christina; Pang, Jiandong; Zhang, Liangliang; Sun, Di; Alsalme, Ali (2018-02-23). "Retrosynthesis of multi-component metal−organic frameworks". Nature Communications. 9 (1): 808. doi:10.1038/s41467-018-03102-5. ISSN 2041-1723.
  19. ^ "Introduction to Metal–Organic Frameworks". Chemical Reviews. 112 (2): 673–674. 2012-02-08. doi:10.1021/cr300014x. ISSN 0009-2665.
  20. ^ Hong-Cai “Joe” Zhou; Kitagawa, Susumu (2014). "Metal–Organic Frameworks (MOFs)". Chemical Society Reviews. 43 (16): 5415–5418. doi:10.1039/C4CS90059F. {{cite journal}}: no-break space character in |last= at position 15 (help)
  21. ^ "NSF Award Search: Award # 0449634 - CAREER: From Biomimetic Reaction Platforms to Nanostructured Artificial Enzymes". www.nsf.gov. Retrieved 2021-05-12.
  22. ^ "Highly Cited Researchers". Thomson Reuters. Archived from the original on December 5, 2016. Retrieved April 5, 2016.
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