北京理工大学化学与化工学院研究生导师马玉荣介绍如下咨询QQ、微信:2544906)
优秀青年科学基金,生物矿物结构化学和仿生(21622301),主持,2017-2019,130,材料化学
国家自然科学基金委面上项目,碳酸钙矿物的生物矿化研究及生物启发下碳酸钙的可控晶化、组装及应用(51272298),主持,2013-2016,80
国家自然科学基金委青年基金,高镁含量方解石的生物矿化及其仿生矿化研究(50902002),主持,2010-2012,20
高等学校博士点新教师基金,高镁含量方解石的生物矿化研究,主持,2009-2011,3.6
教育部留学回国基金,高镁含量方解石的生物矿化及其仿生矿化研究,主持,2009-2012,4
科技部973项目,若干生命活动中矿化作用的环境响应机制研究(2007CB815602),参与,2012-2016,10
主要工作业绩
2011年以来,集中研究生物矿化及受生物启发的无机晶体的晶化过程,在碳酸钙生物矿物的形成机理和微纳结构与机械性能之间关系研究方面取得突破,通过控制碳酸钙的成核与晶化过程实现了对其晶型、组成及形貌的有效调控,在
PNAS、Angew. Chem. Int. Ed.、Chem. Eur. J.等刊物上发表第一或通讯作者学术论文15篇。迄今共发表第一或通讯作者学术论文34篇,包括PNAS 2篇,Angew. Chem. Int. Ed. 1篇,Adv. Mater. 2篇,Adv. Funct. Mater. 3篇等。所发表的论文累计他引1400余次,其中单篇他引110次以上的第一作者研究论文有4篇。在国际及国内学术会议做邀请报告6次,作为会议共同主席组织MRS 2016 Spring Meeting等国际会议分会2次。主要学术成绩、创新点和科学意义如下咨询QQ、微信:2544906的晶体取向高度一致性等结构特点对碳酸钙生物矿物的优异机械性能有重要贡献。(a)
发现海胆骨针是晶体取向高度一致的生物介晶,其中方解石纳米晶嵌于非晶态碳酸钙中,大大提高了骨针的断裂韧性(PNAS, 2012)。该工作受到Science评述文章的积极评价,被引用80余次。观察到海胆牙齿是由两个单晶-多晶复合嵌段组成,晶体取向的高度一致性对海胆牙齿优越的机械性能有重要贡献(PNAS, 2009)。(b)
发现海蝴蝶超薄矿化外壳的各向异性的优越机械性能与其自锁型螺旋纤维密堆结构及文石纤维多级有序结构的晶体取向高度一致相关(Angew. Chem. Int. Ed.,2011)。
2)借鉴上述对碳酸钙生物矿物微纳结构和晶化机理的研究,成功合成出具
有特定晶型、组成及形貌的碳酸钙微纳结构。(a)通过无定形前体转化的策略在温和条件下大批量制备出热力学不稳定的高镁方解石(Cryst. Growth Des., 2011)。
(b)分别通过外延生长法和取向溶解法实现了一维方解石单晶阵列的可控合成 (Chem. Eur. J., 2014)。
代表性论文
1.H. Yang, S. Q. Chai, Y. Z. Zhang, Y. R. Ma*,A study on the influence of sodium carbonate concentration on the synthesis of high Mg calcites, CrystEngComm, 2016, 18, 157-163.
2.W. K. Wu, Y. R. Ma*, Y. Xing, Y. Z. Zhang, H. Yang, Q. Luo, J. Wang, B. Li*,
L.M. Qi, Cryst. Growth Des. 2015, 15, 2156-2164.
3.X. Long, R. J. Meng, W. K. Wu, Y. R. Ma*, D. Yang, L. M. Qi*. Calcite microneedle s produced via inorganic ions assisted anisotropic dissolution of bulk calcite crystal, Chem. Eur. J., 2014, 20, 4264-4272.
4.X. Long, Y. R. Ma*, L. M. Qi, “Biogenic and synthetic high magnesium calcite -
Areview”, J. Struct. Biol., 2014,185, 1-14.
5.Z. H. Li, Y. R. Ma*, L. M. Qi*, “Controlled synthesis of MnxFe1−xO concave nanocubes and highly branched cubic mesocrystals”, CrystEngComm, 2014, 16, 600-608.
6.X. Long, Y. R. Ma*, K. R. Cho, D. S. Li, J. J. De Yoreo*, L. M. Qi*. Oriented Calcite Micropillars and Prisms Formed on Calcite Substrates through Aggregation and Recrystallization of PAA Stabilized Nanoparticles, Cryst. Growth Des., 2013, 13, 3856-3863.7.R. J. Meng, Y. R. Ma*, X. Long, D. Yang,* L. M. Qi, “Calcite micropyramid s fabricated via anisotropic dissolution of calcite in the presence of NH4I and (NH4)2SO4”, CrystEngComm, 2013, 15, 8867-8873
8.J. Seto#, Y. R. Ma#, S. Davis, F. Meldrum, Y. Y. Kim, U. Schilde, M. Sztucki, A. Gourrier, S. Maltsev, C. J?ge, H. C?lfen*. Structure-property relationships of a biological mesocrystal in the adult sea urchin spine, Proc. Nat. Acad. Sci. U.S.A., 2012, 109, 3699-3704. (# contributed equally)
9.X. Long, M. J. Nasse, Y. R. Ma*, L. M. Qi*, “From synthetic to biogenic Mg-containing calcite: a comparative study using FTIR microspectroscopy.”,
Phys. Chem. Chem. Phys., 2012, 14, 2255–2263.
10.T. J. Zhang, Y. R. Ma*, K. Chen, M. Kunz, N. Tamura, M. Qiang, J. Xu, L. M. Qi*. Ultra-Thin Flexible Armor in Nature: Interlocked Helical Aragonite Nanofibers in Cavolinia uncinata Shell and Its Mechanical Properties, Angew. Chem. Int. Ed., 2011, 50, 10361-10365.
11.X. Long, Y. R. Ma*, L. M. Qi*. In vitro synthesis of high Mg calcite under ambient conditions and its implication for biomineralization process, Cryst. Growth Des., 2011, 11, 2866-2873.
12.T. J. Zhang, W. Wang, D. Y. Zhang, X. X. Zhang, Y. R. Ma*, Y. L. Zhou*, L. M. Qi*. Biotemplated Synthesis of Gold Nanoparticle-Bacteria Cellulose Nanofiber Nanocomposites and Their Application in Biosensing, Adv. Funct. Mater., 2010, 20, 1152-1160.
13.Y. R. Ma, B. Aichmayer, O. Paris, P. Fratzl, A. Meibom, R. A. Metzler, Y. Politi, L. Addadi*, P. U. P. A. Gilbert*, S. Weiner*. The Grinding Tip of the Sea Urchin Tooth: Exquisite Control over Calcite Crystal Orientation and Mg Distribution, Proc. Nat. Acad. Sci. U.S.A., 2009, 106, 6048-6053.
14.Y. R. Ma, G. Mehltretter, C. Plüg, N. Rademacher,M. U. Schmidt, and H.C?lfen : “PY181 Pigment Microspheres of Nanoplates Synthesized via Polymer-Induced
Liquid Precursors” Adv. Funct. Mater., 2009, 19, 2095-2101. (内封面)
15.Y. R. Ma, S. R. Cohen, S. Weiner*, L. Addadi. Sea Urchin Tooth Design: An
“All-Calcite” Polycrystalline Reinforced Fiber Composite for Grinding Rocks, Adv. Mater., 2008, 20, 1555-1559.
16.Y. R. Ma, S. Weiner, L. Addadi*. Mineral Deposition and Crystal Growth in the Continuously Forming Teeth of Sea Urchins, Adv. Funct. Mater., 2007, 17, 2693-2700.
17.Y. R. Ma, L. M. Qi*, J. M. Ma, H. M. Cheng. Micelle-mediated Synthesis of Single-Crystalline Selenium Nanotubes, Adv. Mater., 2004, 16, 1023-1026. |
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