| Cu (I) complexes–Thermally activated delayed fluorescence. Photophysical approach and material design R Czerwieniec, MJ Leitl, HHH Homeier, H Yersin Coordination Chemistry Reviews 325, 2-28, 2016 | 505 | 2016 |
| On Newton-type methods with cubic convergence HHH Homeier Journal of computational and applied mathematics 176 (2), 425-432, 2005 | 348 | 2005 |
| Organometallic Pt (II) and Ir (III) triplet emitters for OLED applications and the role of spin–orbit coupling: a study based on high-resolution optical spectroscopy AF Rausch, HHH Homeier, H Yersin Photophysics of Organometallics, 193-235, 2010 | 255 | 2010 |
| A modified Newton method with cubic convergence: the multivariate case HHH Homeier Journal of Computational and Applied Mathematics 169 (1), 161-169, 2004 | 221 | 2004 |
| A modified Newton method for rootfinding with cubic convergence HHH Homeier Journal of Computational and Applied Mathematics 157 (1), 227-230, 2003 | 166 | 2003 |
| Some properties of the coupling coefficients of real spherical harmonics and their relation to Gaunt coefficients HHH Homeier, EO Steinborn Journal of Molecular Structure: THEOCHEM 368, 31-37, 1996 | 114 | 1996 |
| Spin-orbit coupling routes and OLED performance-studies of blue-light emitting Ir(III) and Pt(II) complexes AF Rausch, HHH Homeier, PI Djurovich, ME Thompson, H Yersin Proc. SPIE 6655, 66550F, 2007 | 75 | 2007 |
| A symmetry-based design strategy for unprecedentedly fast decaying thermally activated delayed fluorescence (TADF). Application to di-nuclear Cu (I) compounds A Schinabeck, J Chen, L Kang, T Teng, HHH Homeier, AF Suleymanova, ... Chemistry of Materials, 2019 | 64 | 2019 |
| Scalar Levin-type sequence transformations HHH Homeier Journal of Computational and Applied Mathematics 122 (1-2), 81-147, 2000 | 63 | 2000 |
| On the evaluation of overlap integrals with exponential‐type basis functions HHH Homeier, EO Steinborn International journal of quantum chemistry 42 (4), 761-778, 1992 | 57 | 1992 |
| Improved quadrature methods for three‐center nuclear attraction integrals with exponential‐type basis functions HHH Homeier, E Otto Steinborn International journal of quantum chemistry 39 (4), 625-645, 1991 | 57 | 1991 |
| Improved quadrature methods for the Fourier transform of a two‐center product of exponential‐type basis functions HHH Homeier, EO Steinborn International journal of quantum chemistry 41 (3), 399-411, 1992 | 56 | 1992 |
| Numerical integration of functions with a sharp peak at or near one boundary using Möbius transformations HHH Homeier, EO Steinborn Journal of Computational Physics 87 (1), 61-72, 1990 | 54 | 1990 |
| Photophysics of Organometallics FN Castellano, HHH Homeier, A Kumar, KKW Lo, AJ Lees, C Long, ... | 52* | |
| On Newton-type methods for multiple roots with cubic convergence HHH Homeier Journal of computational and applied mathematics 231 (1), 249-254, 2009 | 46 | 2009 |
| Design of conformationally distorted donor–acceptor dyads showing efficient thermally activated delayed fluorescence GA Sommer, LN Mataranga-Popa, R Czerwieniec, T Hofbeck, ... The Journal of Physical Chemistry Letters 9 (13), 3692-3697, 2018 | 42 | 2018 |
| Möbius‐Type quadrature of electron repulsion integrals with B functions EO Steinborn, HHH Homeier International Journal of Quantum Chemistry 38 (S24), 349-363, 1990 | 42 | 1990 |
| Some applications of nonlinear convergence accelerators HHH Homeier International journal of quantum chemistry 45 (6), 545-562, 1993 | 39 | 1993 |
| Programs for the evaluation of overlap integrals with B functions HHH Homeier, EJ Weniger, EO Steinborn Computer physics communications 72 (2), 269-287, 1992 | 38 | 1992 |
| Molecular calculations with B functions EO Steinborn, HHH Homeier, I Ema, R López, G Ramírez International Journal of Quantum Chemistry 76 (2), 244-251, 2000 | 36 | 2000 |
Hartmut YersinUniversität Regensburg在 ur.de 的电子邮件经过验证
