Novel red phosphors for solid-state lighting: the system NaM (WO4) 2− x (MoO4) x: Eu3+ (M Gd, Y, Bi) S Neeraj, N Kijima, AK Cheetham Chemical Physics Letters 387 (1-3), 2-6, 2004 | 984 | 2004 |
Aufbau principle of complex open-framework structures of metal phosphates with different dimensionalities CNR Rao, S Natarajan, A Choudhury, S Neeraj, AA Ayi Accounts of Chemical Research 34 (1), 80-87, 2001 | 416 | 2001 |
Novel red phosphors for solid state lighting; the system BixLn1− xVO4; Eu3+/Sm3+ (Ln= Y, Gd) S Neeraj, N Kijima, AK Cheetham Solid State Communications 131 (1), 65-69, 2004 | 273 | 2004 |
Exploration of a simple universal route to the myriad of open-framework metal phosphates CNR Rao, S Natarajan, S Neeraj Journal of the American Chemical Society 122 (12), 2810-2817, 2000 | 226 | 2000 |
A novel open-framework zinc phosphate with intersecting helical channels S Neeraj, S Natarajan, CNR Rao Chemical communications, 165-166, 1999 | 136 | 1999 |
Transformations of low-dimensional zinc phosphates to complex open-framework structures. Part 1: zero-dimensional to one-, two-and three-dimensional structures AA Ayi, A Choudhury, S Natarajan, S Neeraj, CNR Rao Journal of Materials Chemistry 11 (4), 1181-1191, 2001 | 113 | 2001 |
Transformations of the low-dimensional zinc phosphates to complex open-framework structures. Part 2: Part 1= reference 9b. one-dimensional ladder to two-and three-dimensional … A Choudhury, S Neeraj, S Natarajan, CNR Rao Journal of Materials Chemistry 11 (5), 1537-1546, 2001 | 100 | 2001 |
Nanosurface–the future of implants GK Thakral, R Thakral, N Sharma, J Seth, P Vashisht Journal of clinical and diagnostic research: JCDR 8 (5), ZE07, 2014 | 99 | 2014 |
Three-dimensional open-framework cobalt (II) phosphates by novel routes S Natarajan, S Neeraj, A Choudhury, CNR Rao Inorganic Chemistry 39 (7), 1426-1433, 2000 | 98 | 2000 |
Amine Phosphates as Intermediates in the Formation of Open‐Framework Structures S Neeraj, S Natarajan, CNR Rao Angewandte Chemie International Edition 38 (23), 3480-3483, 1999 | 96 | 1999 |
A Zinc Phosphate Possessing Ladder-like Layers Made Up of Three-and Four-Membered Rings and Infinite Zn− O− Zn Chains S Neeraj, S Natarajan, CNR Rao Chemistry of materials 11 (5), 1390-1395, 1999 | 89 | 1999 |
Isolation of a Zinc Phosphate Primary Building Unit,[C6N2H18] 2+[Zn (HPO4)(H2PO4) 2] 2−, and Its Transformation to an Open-Framework Phosphate,[C6N2H18] 2+[Zn3 (H2O) 4 (HPO4) 4] 2− S Neeraj, S Natarajan, CNR Rao Journal of Solid State Chemistry 150 (2), 417-422, 2000 | 85 | 2000 |
Open-framework zinc phosphates synthesized in the presence of structure-directing organic amines D Chidambaram, S Neeraj, S Natarajan, CNR Rao Journal of Solid State Chemistry 147 (1), 154-169, 1999 | 83 | 1999 |
Building open-framework metal phosphates from amine phosphates and a monomeric four-membered ring phosphate CNR Rao, S Natarajan, S Neeraj Journal of Solid State Chemistry 152 (1), 302-321, 2000 | 78 | 2000 |
Synthesis and structure of the first open-framework cadmium oxalate possessing channels PA Prasad, S Neeraj, S Natarajan, CNR Rao Chemical Communications, 1251-1252, 2000 | 75 | 2000 |
Sodalite networks formed by metal squarates S Neeraj, ML Noy, CNR Rao, AK Cheetham Solid State Sciences 4 (10), 1231-1236, 2002 | 63 | 2002 |
Three-dimensional open-framework zinc phosphates with the structure-directing organic amines acting as ligands S Neeraj, S Natarajan, CNR Rao New Journal of Chemistry 23 (3), 303-307, 1999 | 62 | 1999 |
Alkalicyamelurates, M 3 [C 6 N 7 O 3]· x H 2 O, M= Li, Na, K, Rb, Cs: UV-luminescent and thermally very stable ionic tri-s-triazine derivatives E Horvath-Bordon, E Kroke, I Svoboda, H Fueß, R Riedel, S Neeraj, ... Dalton transactions, 3900-3908, 2004 | 59 | 2004 |
Structure and magnetic properties of a three-dimensional framework manganese (II) phosphate,[NH4][Mn4 (PO4) 3] S Neeraj, ML Noy, AK Cheetham Solid state sciences 4 (3), 397-404, 2002 | 55 | 2002 |
Three-dimensional zinc phosphates with open architectures S Neeraj, S Natarajan Chemistry of materials 12 (9), 2753-2762, 2000 | 53 | 2000 |